Angular Interview Questions
1. What is
Angular Framework?
Angular is
a TypeScript-based open-source front-end platform that makes
it easy to build applications with in web/mobile/desktop. The major features of
this framework such as declarative templates, dependency injection, end to end
tooling, and many more other features are used to ease the development.
2. What is the
difference between AngularJS and Angular?
Angular is a
completely revived component-based framework in which an application is a tree
of individual components.
Some of the
major difference in tabular form
|
AngularJS |
Angular |
|
It
is based on MVC architecture |
This
is based on Service/Controller |
|
This
uses use JavaScript to build the application |
Introduced
the typescript to write the application |
|
Based
on controllers concept |
This
is a component based UI approach |
|
Not
a mobile friendly framework |
Developed
considering mobile platform |
|
Difficulty
in SEO friendly application development |
Ease
to create SEO friendly applications |
3. What is
TypeScript?
TypeScript is
a typed superset of JavaScript created by Microsoft that adds optional types,
classes, async/await, and many other features, and compiles to plain
JavaScript. Angular built entirely in TypeScript and used as a primary
language. You can install it globally as
npm install -g typescript
Let's see a
simple example of TypeScript usage,
function greeter(person:
string) {
return "Hello,
" + person;
}
let user = "Sudheer";
document.body.innerHTML = greeter(user);
The greeter
method allows only string type as argument.
4. Write a
pictorial diagram of Angular architecture?
The main building blocks of an Angular application is shown in the below diagram
5. What are the
key components of Angular?
Angular has
the below key components,
i.
Component: These
are the basic building blocks of angular application to control HTML views.
ii.
Modules: An angular
module is set of angular basic building blocks like component, directives,
services etc. An application is divided into logical pieces and each piece of
code is called as "module" which perform a single task.
iii.
Templates: This
represent the views of an Angular application.
iv.
Services: It is
used to create components which can be shared across the entire application.
v.
Metadata: This can
be used to add more data to an Angular class.
6. What are
directives?
Directives add
behaviour to an existing DOM element or an existing component instance.
import { Directive, ElementRef,
Input } from '@angular/core';
@Directive({ selector: '[myHighlight]' })
export class HighlightDirective
{
constructor(el:
ElementRef) {
el.nativeElement.style.backgroundColor = 'yellow';
}
}
Now this
directive extends HTML element behavior with a yellow background as below
<p myHighlight>Highlight
me!</p>
7. What are
components?
Components are
the most basic UI building block of an Angular app which formed a tree of
Angular components. These components are subset of directives. Unlike
directives, components always have a template and only one component can be
instantiated per an element in a template. Let's see a simple example of
Angular component
import { Component } from '@angular/core';
@Component ({
selector: 'my-app',
template: `
<div>
<h1>{{title}}</h1>
<div>Learn
Angular6 with examples</div>
</div> `,
})
export class
AppComponent {
title: string = 'Welcome to
Angular world';
}
8. What are the
differences between Component and Directive?
In a short
note, A component(@component) is a directive-with-a-template.
Some of the
major differences are mentioned in a tabular form
|
Component |
Directive |
|
To
register a component we use @Component meta-data annotation |
To
register directives we use @Directive meta-data annotation |
|
Components
are typically used to create UI widgets |
Directive
is used to add behavior to an existing DOM element |
|
Component
is used to break up the application into smaller components |
Directive
is use to design re-usable components |
|
Only
one component can be present per DOM element |
Many
directives can be used per DOM element |
|
@View
decorator or template URL/template are mandatory |
Directive
doesn't use View |
9. What is a
template?
A template is
a HTML view where you can display data by binding controls to properties of an
Angular component. You can store your component's template in one of two
places. You can define it inline using the template property, or you can define
the template in a separate HTML file and link to it in the component metadata
using the @Component decorator's templateUrl property.
Using inline
template with template syntax,
import { Component } from '@angular/core';
@Component ({
selector: 'my-app',
template: '
<div>
<h1>{{title}}</h1>
<div>Learn
Angular</div>
</div>
'
})
export class
AppComponent {
title: string = 'Hello
World';
}
Using separate
template file such as app.component.html
import { Component } from '@angular/core';
@Component ({
selector: 'my-app',
templateUrl: 'app/app.component.html'
})
export class
AppComponent {
title: string = 'Hello
World';
}
10. What is a
module?
Modules are
logical boundaries in your application and the application is divided into
separate modules to separate the functionality of your application. Lets take
an example of app.module.ts root module declared with @NgModule decorator
as below,
import { NgModule } from '@angular/core';
import { BrowserModule } from '@angular/platform-browser';
import { AppComponent } from './app.component';
@NgModule ({
imports: [ BrowserModule ],
declarations: [
AppComponent ],
bootstrap: [
AppComponent ],
providers: []
})
export class AppModule
{ }
The NgModule
decorator has five important(among all) options
i.
The imports option is used to
import other dependent modules. The BrowserModule is required by default for
any web based angular application
ii.
The declarations option is used
to define components in the respective module
iii.
The bootstrap option tells
Angular which Component to bootstrap in the application
iv.
The providers option is used to
configure set of injectable objects that are available in the injector of this
module.
v.
The entryComponents option is a
set of components dynamically loaded into the view.
11. What are
lifecycle hooks available?
Angular application goes through an entire set of processes or has a lifecycle right from its initiation to the end of the application. The representation of lifecycle in pictorial representation as follows,
The
description of each lifecycle method is as below,
i.
ngOnChanges: When the
value of a data bound property changes, then this method is called.
ii.
ngOnInit: This is called
whenever the initialization of the directive/component after Angular first
displays the data-bound properties happens.
iii.
ngDoCheck: This is
for the detection and to act on changes that Angular can't or won't detect on
its own.
iv.
ngAfterContentInit: This is
called in response after Angular projects external content into the component's
view.
v.
ngAfterContentChecked: This is
called in response after Angular checks the content projected into the
component.
vi.
ngAfterViewInit: This is
called in response after Angular initializes the component's views and child
views.
vii.
ngAfterViewChecked: This is
called in response after Angular checks the component's views and child views.
viii.
ngOnDestroy: This is
the cleanup phase just before Angular destroys the directive/component.
12. What is a data
binding?
Data binding
is a core concept in Angular and allows to define communication between a
component and the DOM, making it very easy to define interactive applications
without worrying about pushing and pulling data. There are four forms of data
binding(divided as 3 categories) which differ in the way the data is flowing.
i.
From the Component to the DOM:
Interpolation: {{ value
}}: Adds the value of a property from the component
<li>Name: {{ user.name
}}</li>
<li>Address: {{ user.address
}}</li>
Property
binding: [property]=”value”: The value is passed from the component
to the specified property or simple HTML attribute
<input type="email" [value]="user.email">
ii.
From the DOM to the Component: Event
binding: (event)=”function”: When a specific DOM event happens (eg.:
click, change, keyup), call the specified method in the component
<button (click)="logout()"></button>
iii.
Two-way binding: Two-way
data binding: [(ngModel)]=”value”: Two-way data binding allows to have
the data flow both ways. For example, in the below code snippet, both the email
DOM input and component email property are in sync
<input type="email" [(ngModel)]="user.email">
13. What is metadata?
Metadata is
used to decorate a class so that it can configure the expected behavior of the
class. The metadata is represented by decorators
i.
Class decorators, e.g.
@Component and @NgModule
ii.
import {
NgModule, Component } from '@angular/core';
iii.
iv.
@Component({
v.
selector: 'my-component',
vi.
template: '<div>Class
decorator</div>',
vii.
})
viii.
export class
MyComponent {
ix.
constructor() {
x.
console.log('Hey I am a
component!');
xi.
}
xii.
}
xiii.
xiv.
@NgModule({
xv.
imports: [],
xvi.
declarations: [],
xvii.
})
xviii.
export class MyModule {
xix.
constructor() {
xx.
console.log('Hey I am a
module!');
xxi.
}
}
xxii.
Property decorators Used for
properties inside classes, e.g. @Input and @Output
xxiii.
import {
Component, Input } from '@angular/core';
xxiv.
xxv.
@Component({
xxvi.
selector: 'my-component',
xxvii.
template: '<div>Property
decorator</div>'
xxviii.
})
xxix.
xxx.
export class
MyComponent {
xxxi.
@Input()
xxxii.
title: string;
}
xxxiii.
Method decorators Used for
methods inside classes, e.g. @HostListener
xxxiv.
import {
Component, HostListener } from '@angular/core';
xxxv.
xxxvi.
@Component({
xxxvii.
selector: 'my-component',
xxxviii.
template: '<div>Method
decorator</div>'
xxxix.
})
xl.
export class
MyComponent {
xli.
@HostListener('click', ['$event'])
xlii.
onHostClick(event:
Event) {
xliii.
// clicked,
`event` available
xliv.
}
}
xlv.
Parameter decorators Used for
parameters inside class constructors, e.g. @Inject, Optional
xlvi.
import {
Component, Inject } from '@angular/core';
xlvii.
import {
MyService } from './my-service';
xlviii.
xlix.
@Component({
l.
selector: 'my-component',
li.
template: '<div>Parameter
decorator</div>'
lii.
})
liii.
export class
MyComponent {
liv.
constructor(@Inject(MyService)
myService) {
lv.
console.log(myService);
// MyService
lvi.
}
}
14. What is
angular CLI?
Angular CLI(Command
Line Interface) is a command line interface to scaffold and build angular
apps using nodejs style (commonJs) modules. You need to install using below npm
command,
npm install @angular/cli@latest
Below are the
list of few commands, which will come handy while creating angular projects
i.
Creating New Project: ng new
ii.
Generating Components,
Directives & Services: ng generate/g The
different types of commands would be,
§ ng generate
class my-new-class: add a class to your application
§ ng generate
component my-new-component: add a component to your application
§ ng generate
directive my-new-directive: add a directive to your application
§ ng generate
enum my-new-enum: add an enum to your application
§ ng generate
module my-new-module: add a module to your application
§ ng generate
pipe my-new-pipe: add a pipe to your application
§ ng generate
service my-new-service: add a service to your application
iii.
Running the Project: ng serve
15. What is the
difference between constructor and ngOnInit?
TypeScript
classes has a default method called constructor which is normally used for the
initialization purpose. Whereas ngOnInit method is specific to Angular,
especially used to define Angular bindings. Even though constructor getting
called first, it is preferred to move all of your Angular bindings to ngOnInit
method. In order to use ngOnInit, you need to implement OnInit interface as
below,
export class App implements OnInit{
constructor(){
//called
first time before the ngOnInit()
}
ngOnInit(){
//called
after the constructor and called after
the first ngOnChanges()
}
}
16. What is a
service?
A service is
used when a common functionality needs to be provided to various modules.
Services allow for greater separation of concerns for your application and
better modularity by allowing you to extract common functionality out of
components.
Let's create a
repoService which can be used across components,
import { Injectable } from '@angular/core';
import { Http } from '@angular/http';
@Injectable({ // The Injectable decorator
is required for dependency injection to work
//
providedIn option registers the service with a specific NgModule
providedIn: 'root', // This declares the service
with the root app (AppModule)
})
export class
RepoService{
constructor(private http:
Http){
}
fetchAll(){
return this.http.get('https://api.github.com/repositories');
}
}
The above
service uses Http service as a dependency.
17. What is
dependency injection in Angular?
Dependency
injection (DI), is an important application design pattern in which a class
asks for dependencies from external sources rather than creating them itself.
Angular comes with its own dependency injection framework for resolving
dependencies( services or objects that a class needs to perform its
function).So you can have your services depend on other services throughout
your application.
18. How is
Dependency Hierarchy formed?
19. What is the
purpose of async pipe?
The AsyncPipe
subscribes to an observable or promise and returns the latest value it has
emitted. When a new value is emitted, the pipe marks the component to be
checked for changes.
Let's take a
time observable which continuously updates the view for every 2 seconds with
the current time.
@Component({
selector: 'async-observable-pipe',
template: `<div><code>observable|async</code>:
Time: {{ time |
async }}</div>`
})
export class
AsyncObservablePipeComponent {
time = new
Observable(observer =>
setInterval(() => observer.next(new Date().toString()), 2000)
);
}
20.
What is the option to choose
between inline and external template file?
You can store
your component's template in one of two places. You can define it inline using
the template property, or you can define the template in a
separate HTML file and link to it in the component metadata using the @Component decorator's templateUrl property.
The choice
between inline and separate HTML is a matter of taste, circumstances, and
organization policy. But normally we use inline template for small portion of
code and external template file for bigger views. By default, the Angular CLI
generates components with a template file. But you can override that with the
below command,
ng generate component hero -it
21. What is the
purpose of ngFor directive?
We use Angular
ngFor directive in the template to display each item in the list. For example,
here we iterate over list of users,
<li *ngFor="let user of
users">
{{ user }}
</li>
The user
variable in the ngFor double-quoted instruction is a template input
variable
22.
What is the purpose of ngIf
directive?
Sometimes an
app needs to display a view or a portion of a view only under specific
circumstances. The Angular ngIf directive inserts or removes an element based
on a truthy/falsy condition. Let's take an example to display a message if the
user age is more than 18,
<p *ngIf="user.age
> 18">You are not eligible for student pass!</p>
Note: Angular
isn't showing and hiding the message. It is adding and removing the paragraph
element from the DOM. That improves performance, especially in the larger
projects with many data bindings.
23.
What happens if you use script
tag inside template?
Angular
recognizes the value as unsafe and automatically sanitizes it, which removes
the <script> tag but keeps safe content such as the text
content of the <script> tag. This way it eliminates the risk of script
injection attacks. If you still use it then it will be ignored and a warning
appears in the browser console.
Let's take an
example of innerHtml property binding which causes XSS vulnerability,
export class InnerHtmlBindingComponent
{
// For
example, a user/attacker-controlled value from a URL.
htmlSnippet = 'Template
<script>alert("0wned")</script>
<b>Syntax</b>';
}
24.
What is interpolation?
Interpolation
is a special syntax that Angular converts into property binding. It’s a
convenient alternative to property binding. It is represented by double curly
braces({{}}). The text between the braces is often the name of a component
property. Angular replaces that name with the string value of the corresponding
component property.
Let's take an
example,
<h3>
{{title}}
<img src="{{url}}" style="height:30px">
</h3>
In the example
above, Angular evaluates the title and url properties and fills in the blanks,
first displaying a bold application title and then a URL.
25.
What are template expressions?
A template
expression produces a value similar to any Javascript expression. Angular
executes the expression and assigns it to a property of a binding target; the
target might be an HTML element, a component, or a directive. In the property
binding, a template expression appears in quotes to the right of the = symbol
as in [property]="expression". In interpolation syntax, the template
expression is surrounded by double curly braces. For example, in the below
interpolation, the template expression is {{username}},
<h3>{{username}}, welcome to
Angular</h3>
The below
javascript expressions are prohibited in template expression
i.
assignments (=, +=, -=, ...)
ii.
new
iii.
chaining expressions with ; or ,
iv.
increment and decrement
operators (++ and --)
26.
What are template statements?
A template
statement responds to an event raised by a binding target such as an element,
component, or directive. The template statements appear in quotes to the right
of the = symbol like (event)="statement".
Let's take an
example of button click event's statement
<button (click)="editProfile()">Edit
Profile</button>
In the above
expression, editProfile is a template statement. The below JavaScript syntax
expressions are not allowed.
i.
new
ii.
increment and decrement
operators, ++ and --
iii.
operator assignment, such as +=
and -=
iv.
the bitwise operators | and
&
v.
the template expression
operators
27.How do you
categorize data binding types?
Binding types
can be grouped into three categories distinguished by the direction of data
flow. They are listed as below,
i.
From the source-to-view
ii.
From view-to-source
iii.
View-to-source-to-view
The possible
binding syntax can be tabularized as below,
|
Data direction |
Syntax |
Type |
|
From
the source-to-view(One-way) |
1.
{{expression}} 2. [target]="expression" 3. bind-target="expression" |
Interpolation,
Property, Attribute, Class, Style |
|
From
view-to-source(One-way) |
1.
(target)="statement" 2. on-target="statement" |
Event |
|
View-to-source-to-view(Two-way) |
1.
[(target)]="expression" 2. bindon-target="expression" |
Two-way |
28.
What are pipes?
A pipe takes
in data as input and transforms it to a desired output. For example, let us
take a pipe to transform a component's birthday property into a human-friendly
date using date pipe.
import { Component } from '@angular/core';
@Component({
selector: 'app-birthday',
template: `<p>Birthday
is {{ birthday | date }}</p>`
})
export class BirthdayComponent {
birthday = new Date(1987, 6, 18); // June 18,
1987
}
29.
What is a parameterized pipe?
A pipe can
accept any number of optional parameters to fine-tune its output. The
parameterized pipe can be created by declaring the pipe name with a colon ( : )
and then the parameter value. If the pipe accepts multiple parameters, separate
the values with colons. Let's take a birthday example with a particular
format(dd/MM/yyyy):
import { Component } from '@angular/core';
@Component({
selector: 'app-birthday',
template: `<p>Birthday
is {{ birthday | date:'dd/MM/yyyy'}}</p>` // 18/06/1987
})
export class BirthdayComponent {
birthday = new Date(1987, 6, 18);
}
Note: The
parameter value can be any valid template expression, such as a string literal
or a component property.
30.
How do you chain pipes?
You can chain
pipes together in potentially useful combinations as per the needs. Let's take
a birthday property which uses date pipe(along with parameter) and uppercase
pipes as below
import { Component } from '@angular/core';
@Component({
selector: 'app-birthday',
template: `<p>Birthday
is {{ birthday | date:'fullDate' |
uppercase}} </p>` //
THURSDAY, JUNE 18, 1987
})
export class BirthdayComponent {
birthday = new Date(1987, 6, 18);
}
31. What is a
custom pipe?
Apart from
built-inn pipes, you can write your own custom pipe with the below key
characteristics,
i.
A pipe is a class decorated with
pipe metadata @Pipe decorator, which you import from the core
Angular library For example,
@Pipe({name: 'myCustomPipe'})
ii.
The pipe class implements
the PipeTransform interface's transform method that accepts an
input value followed by optional parameters and returns the transformed value.
The structure of pipeTransform would be as below,
iii.
interface PipeTransform {
iv.
transform(value:
any, ...args: any[]): any
}
v.
The @Pipe decorator allows you
to define the pipe name that you'll use within template expressions. It must be
a valid JavaScript identifier.
template: `{{someInputValue |
myCustomPipe: someOtherValue}}`
32.
Give an example of custom pipe?
You can create
custom reusable pipes for the transformation of existing value. For example,
let us create a custom pipe for finding file size based on an extension,
```javascript import { Pipe, PipeTransform } from '@angular/core';
@Pipe({name: 'customFileSizePipe'})
export class FileSizePipe implements PipeTransform {
transform(size: number,
extension: string = 'MB'): string {
return (size / (1024 *
1024)).toFixed(2) + extension;
}
}
```
Now you can
use the above pipe in template expression as below, javascript
template: ` <h2>Find the size of a file</h2> <p>Size:
{{288966 | customFileSizePipe: 'GB'}}</p> `
33.What is the
difference between pure and impure pipe?
A pure pipe is
only called when Angular detects a change in the value or the parameters passed
to a pipe. For example, any changes to a primitive input value (String, Number,
Boolean, Symbol) or a changed object reference (Date, Array, Function, Object).
An impure pipe is called for every change detection cycle no matter whether the
value or parameters changes. i.e, An impure pipe is called often, as often as
every keystroke or mouse-move.
34.
What is a bootstrapping module?
Every
application has at least one Angular module, the root module that you bootstrap
to launch the application is called as bootstrapping module. It is commonly
known as AppModule. The default structure of AppModule generated by AngularCLI
would be as follows,
```javascript
/* JavaScript imports */
import { BrowserModule } from '@angular/platform-browser';
import { NgModule } from '@angular/core';
import { FormsModule } from '@angular/forms';
import { HttpClientModule } from '@angular/common/http';
import { AppComponent } from './app.component';
/* the AppModule class with the @NgModule decorator */
@NgModule({
declarations: [
AppComponent
],
imports: [
BrowserModule,
FormsModule,
HttpClientModule
],
providers: [],
bootstrap: [AppComponent]
})
export class AppModule { }
```
35.What are
observables?
Observables
are declarative which provide support for passing messages between publishers
and subscribers in your application. They are mainly used for event handling,
asynchronous programming, and handling multiple values. In this case, you
define a function for publishing values, but it is not executed until a
consumer subscribes to it. The subscribed consumer then receives notifications
until the function completes, or until they unsubscribe.
36.
What is HttpClient and its
benefits?
Most of the
Front-end applications communicate with backend services over HTTP protocol
using either XMLHttpRequest interface or the fetch() API. Angular provides a
simplified client HTTP API known as HttpClient which is based
on top of XMLHttpRequest interface. This client is avaialble from @angular/common/http package.
You can import in your root module as below,
import { HttpClientModule } from '@angular/common/http';
The major
advantages of HttpClient can be listed as below,
i.
Contains testability features
ii.
Provides typed request and
response objects
iii.
Intercept request and response
iv.
Supports Observalbe APIs
v.
Supports streamlined error
handling
37.Explain on how
to use HttpClient with an example?
Below are the
steps need to be followed for the usage of HttpClient.
i.
Import HttpClient into root
module:
ii.
import { HttpClientModule } from '@angular/common/http';
iii.
@NgModule({
iv.
imports: [
v.
BrowserModule,
vi.
// import HttpClientModule
after BrowserModule.
vii.
HttpClientModule,
viii.
],
ix.
......
x.
})
export class AppModule {}
xi.
Inject the HttpClient into the
application: Let's create a userProfileService(userprofile.service.ts) as an
example. It also defines get method of HttpClient
xii.
import { Injectable } from '@angular/core';
xiii.
import { HttpClient } from '@angular/common/http';
xiv.
xv.
const
userProfileUrl: string = 'assets/data/profile.json';
xvi.
xvii.
@Injectable()
xviii.
export class UserProfileService {
xix.
constructor(private
http: HttpClient) { }
xx.
xxi.
getUserProfile() {
xxii.
return this.http.get(this.userProfileUrl);
xxiii.
}
}
xxiv.
Create a component for
subscribing service: Let's create a component called
UserProfileComponent(userprofile.component.ts) which inject UserProfileService
and invokes the service method,
xxv.
fetchUserProfile() {
xxvi.
this.userProfileService.getUserProfile()
xxvii.
.subscribe((data: User) => this.user = {
xxviii.
id: data['userId'],
xxix.
name: data['firstName'],
xxx.
city: data['city']
xxxi.
});
}
Since the
above service method returns an Observable which needs to be subscribed in the
component.
38.
How can you read full response?
The response
body doesn't may not return full response data because sometimes servers also
return special headers or status code which which are important for the
application workflow. Inorder to get full response, you should use observe
option from HttpClient,
getUserResponse(): Observable<HttpResponse<User>> {
return this.http.get<User>(
this.userUrl, { observe: 'response' });
}
Now
HttpClient.get() method returns an Observable of typed HttpResponse rather than
just the JSON data.
39.
How do you perform Error handling?
If the request
fails on the server or failed to reach the server due to network issues then
HttpClient will return an error object instead of a successful reponse. In this
case, you need to handle in the component by passing error object as a second
callback to subscribe() method.
Let's see how
it can be handled in the component with an example,
fetchUser() {
this.userService.getProfile()
.subscribe(
(data: User) => this.userProfile = { ...data
}, // success path
error => this.error = error // error
path
);
}
It is always a
good idea to give the user some meaningful feedback instead of displaying the
raw error object returned from HttpClient.
40.
What is RxJS?
RxJS is a
library for composing asynchronous and callback-based code in a functional,
reactive style using Observables. Many APIs such as HttpClient produce and
consume RxJS Observables and also uses operators for processing observables.
For example,
you can import observables and operators for using HttpClient as below,
import { Observable,
throwError } from 'rxjs';
import { catchError, retry } from 'rxjs/operators';
41. What is
subscribing?
An Observable
instance begins publishing values only when someone subscribes to it. So you
need to subscribe by calling the subscribe() method of the
instance, passing an observer object to receive the notifications.
Let's take an example
of creating and subscribing to a simple observable, with an observer that logs
the received message to the console.
Creates an observable sequence of 5 integers,
starting from 1
const source = range(1, 5);
// Create observer object
const myObserver = {
next: x => console.log('Observer
got a next value: ' + x),
error: err => console.error('Observer
got an error: ' + err),
complete: () => console.log('Observer
got a complete notification'),
};
// Execute with the observer object and Prints out each item
source.subscribe(myObserver);
// => Observer got a next value: 1
// => Observer got a next value: 2
// => Observer got a next value: 3
// => Observer got a next value: 4
// => Observer got a next value: 5
// => Observer got a complete notification
42.
What is an observable?
An Observable
is a unique Object similar to a Promise that can help manage async code.
Observables are not part of the JavaScript language so we need to rely on a
popular Observable library called RxJS. The observables are created using new
keyword.
Let see the
simple example of observable,
import { Observable } from 'rxjs';
const observable = new Observable(observer => {
setTimeout(() => {
observer.next('Hello from
a Observable!');
}, 2000);
});
43.
What is an observer?
Observer is an
interface for a consumer of push-based notifications delivered by an
Observable. It has below structure,
interface Observer<T> {
closed?: boolean;
next: (value: T) => void;
error: (err: any) => void;
complete: () => void;
}
A handler that
implements the Observer interface for receiving observable notifications will
be passed as a parameter for observable as below,
myObservable.subscribe(myObserver);
Note: If you
don't supply a handler for a notification type, the observer ignores
notifications of that type.
44.
What is the difference between
promise and observable?
Below are the
list of differences between promise and observable,
|
Observable |
Promise |
|
Declarative:
Computation does not start until subscription so that they can be run
whenever you need the result |
Execute
immediately on creation |
|
Provide
multiple values over time |
Provide
only one |
|
Subscribe
method is used for error handling which makes centralized and predictable
error handling |
Push
errors to the child promises |
|
Provides
chaining and subscription to handle complex applications |
Uses
only .then() clause |
45.
What is multicasting?
Multi-casting
is the practice of broadcasting to a list of multiple subscribers in a single
execution.
Let's
demonstrate the multi-casting feature,
var source = Rx.Observable.from([1, 2, 3]);
var subject = new Rx.Subject();
var multicasted = source.multicast(subject);
// These are, under the hood, `subject.subscribe({...})`:
multicasted.subscribe({
next: (v) => console.log('observerA:
' + v)
});
multicasted.subscribe({
next: (v) => console.log('observerB:
' + v)
});
// This is, under the hood, `s
46.
How do you perform error
handling in observables?
You can handle
errors by specifying an error callback on the observer instead
of relying on try/catch which are ineffective in asynchronous environment.
For example,
you can define error callback as below,
myObservable.subscribe({
next(num) {
console.log('Next num: ' + num)},
error(err) {
console.log('Received an errror: ' + err)}
});
47.
What is the short hand notation
for subscribe method?
The
subscribe() method can accept callback function definitions in line, for next,
error, and complete handlers is known as short hand notation or Subscribe
method with positional arguments.
For example,
you can define subscribe method as below,
myObservable.subscribe(
x => console.log('Observer
got a next value: ' + x),
err => console.error('Observer
got an error: ' + err),
() => console.log('Observer
got a complete notification')
);
48.
What are the utility functions
provided by RxJS?
The RxJS
library also provides below utility functions for creating and working with
observables.
i.
Converting existing code for
async operations into observables
ii.
Iterating through the values in
a stream
iii.
Mapping values to different
types
iv.
Filtering streams
v.
Composing multiple streams
49.
What are observable creation
functions?
RxJS provides
creation functions for the process of creating observables from things such as
promises, events, timers and Ajax requests. Let us explain each of them with an
example,
i.
Create an observable from a
promise
ii.
import { from } from 'rxjs'; // from
function
iii.
const data = from(fetch('/api/endpoint')); //Created
from Promise
iv.
data.subscribe({
v.
next(response)
{ console.log(response); },
vi.
error(err) {
console.error('Error: ' + err); },
vii.
complete() {
console.log('Completed'); }
});
viii.
Create an observable that creates
an AJAX request
ix.
import { ajax } from 'rxjs/ajax'; // ajax
function
x.
const apiData = ajax('/api/data'); // Created
from AJAX request
xi.
// Subscribe to create the
request
apiData.subscribe(res => console.log(res.status, res.response));
xii.
Create an observable from a
counter
xiii.
import { interval
} from 'rxjs'; // interval
function
xiv.
const
secondsCounter = interval(1000); // Created
from Counter value
xv.
secondsCounter.subscribe(n =>
console.log(`Counter
value: ${n}`));
xvi.
Create an observable from an event
xvii.
import {
fromEvent } from 'rxjs';
xviii.
const el = document.getElementById('custom-element');
xix.
const mouseMoves
= fromEvent(el, 'mousemove');
xx.
const
subscription = mouseMoves.subscribe((e: MouseEvent) => {
xxi.
console.log(`Coordnitaes
of mouse pointer: ${e.clientX} * ${e.clientY}`);
});
50.
What will happen if you do not
supply handler for observer?
Normally an
observer object can define any combination of next, error and complete
notification type handlers. If you don't supply a handler for a notification
type, the observer just ignores notifications of that type.
51. What are
angular elements?
Angular
elements are Angular components packaged as custom elements(a web
standard for defining new HTML elements in a framework-agnostic way). Angular
Elements hosts an Angular component, providing a bridge between the data and
logic defined in the component and standard DOM APIs, thus, providing a way to
use Angular components in non-Angular environments.
52.
What is the browser support of
Angular Elements?
Since Angular
elements are packaged as custom elements the browser support of angular
elements is same as custom elements support.
This feature
is is currently supported natively in a number of browsers and pending for
other browsers.
|
Browser |
Angular Element Support |
|
Chrome |
Natively
supported |
|
Opera |
Natively
supported |
|
Safari |
Natively
supported |
|
Firefox |
Natively
supported from 63 version onwards. You need to enable
dom.webcomponents.enabled and dom.webcomponents.customelements.enabled in
older browsers |
|
Edge |
Currently
it is in progress |
53.What are
custom elements?
Custom
elements (or Web Components) are a Web Platform feature which extends HTML by
allowing you to define a tag whose content is created and controlled by JavaScript
code. The browser maintains a CustomElementRegistry of
defined custom elements, which maps an instantiable JavaScript class to an HTML
tag. Currently this feature is supported by Chrome, Firefox, Opera, and Safari,
and available in other browsers through polyfills.
54.
Do I need to bootstrap custom
elements?
No, custom
elements bootstrap (or start) automatically when they are added to the DOM, and
are automatically destroyed when removed from the DOM. Once a custom element is
added to the DOM for any page, it looks and behaves like any other HTML
element, and does not require any special knowledge of Angular.
55.Explain how
custom elements works internally?
Below are the
steps in an order about custom elements functionality,
i.
App registers custom element
with browser: Use the createCustomElement() function
to convert a component into a class that can be registered with the browser as
a custom element.
ii.
App adds custom element to DOM: Add
custom element just like a built-in HTML element directly into the DOM.
iii.
Browser instantiate component
based class: Browser creates an instance of the registered
class and adds it to the DOM.
iv.
Instance provides content with
data binding and change detection: The content with in
template is rendered using the component and DOM data. The flow chart of the
custom elements functionality would be as follows,
56.
How to transfer components to
custom elements?
Transforming
components to custom elements involves two major steps,
i.
Build custom element class: Angular
provides the createCustomElement() function
for converting an Angular component (along with its dependencies) to a custom
element. The conversion process implements NgElementConstructor interface,
and creates a constructor class which is used to produce a self-bootstrapping
instance of Angular component.
ii.
Register element class with
browser: It uses customElements.define() JS
function, to register the configured constructor and its associated
custom-element tag with the browser's CustomElementRegistry. When the
browser encounters the tag for the registered element, it uses the constructor
to create a custom-element instance.
The detailed
structure would be as follows, 
57.What are the
mapping rules between Angular component and custom element?
The Component
properties and logic maps directly into HTML attributes and the browser's event
system. Let us describe them in two steps,
i.
The createCustomElement() API
parses the component input properties with corresponding attributes for the
custom element. For example, component @Input('myInputProp') converted as
custom element attribute my-input-prop.
ii.
The Component outputs are
dispatched as HTML Custom Events, with the name of the custom event matching
the output name. For example, component @Output() valueChanged = new
EventEmitter() converted as custom element with dispatch event as
"valueChanged".
58.
How do you define typings for
custom elements?
You can use
the NgElement and WithProperties types
exported from @angular/elements.
Let's see how
it can be applied by comparing with Angular component.
i.
The simple container with input
property would be as below,
ii.
@Component(...)
iii.
class MyContainer {
iv.
@Input() message: string;
}
v.
After applying types typescript
validates input value and their types,
vi.
const container = document.createElement('my-container')
as NgElement & WithProperties<{message: string}>;
vii.
container.message = 'Welcome to
Angular elements!';
viii.
container.message = true; // <-- ERROR: TypeScript knows this should
be a string.
ix.
container.greet = 'News'; // <-- ERROR: TypeScript knows there is no
`greet` property on `container`.
59.
What are dynamic components?
Dynamic
components are the components in which components location in the application
is not defined at build time.i.e, They are not used in any angular template.
But the component is instantiated and placed in the application at runtime.
60.
What are the various kinds of
directives?
There are
mainly three kinds of directives,
i.
Components — These
are directives with a template.
ii.
Structural directives — These
directives change the DOM layout by adding and removing DOM elements.
iii.
Attribute directives — These
directives change the appearance or behavior of an element, component, or
another directive.
61. How do you
create directives using CLI?
You can use
CLI command ng generate directive to
create the directive class file. It creates the source file(src/app/components/directivename.directive.ts), the
respective test file(.spec.ts) and declare the directive class file in root
module.
62.
Give an example for attribute
directives?
Let's take
simple highlighter behavior as a example directive for DOM element. You can
create and apply the attribute directive using below steps,
i.
Create HighlightDirective class
with the file name src/app/highlight.directive.ts. In this
file, we need to import Directive from core library to apply
the metadata and ElementRef in the directive's constructor to
inject a reference to the host DOM element ,
ii.
import { Directive, ElementRef } from '@angular/core';
iii.
iv.
@Directive({
v.
selector: '[appHighlight]'
vi.
})
vii.
export class HighlightDirective {
viii.
constructor(el: ElementRef) {
ix.
el.nativeElement.style.backgroundColor = 'red';
x.
}
}
xi.
Apply the attribute directive as
an attribute to the host element(for example,
)
<p appHighlight>Highlight
me!</p>
xii.
Run the application to see the
highlight behavior on paragraph element
ng serve
63.
What is Angular Router?
Angular Router
is a mechanism in which navigation happens from one view to the next as users
perform application tasks. It borrows the concepts or model of browser's
application navigation.
64.
What is the purpose of base href
tag?
The routing
application should add element to the index.html as the first child in the tag
in order to indicate how to compose navigation URLs. If app folder is the
application root then you can set the href value as below
<base href="/">
65.
What are the router imports?
The Angular
Router which represents a particular component view for a given URL is not part
of Angular Core. It is available in library named @angular/router to
import required router components. For example, we import them in app module as
below,
import { RouterModule, Routes } from '@angular/router';
66.
What is router outlet?
The
RouterOutlet is a directive from the router library and it acts as a
placeholder that marks the spot in the template where the router should display
the components for that outlet. Router outlet is used like a component,
<router-outlet></router-outlet>
<!-- Routed components go here -->
67.
What are router links?
The RouterLink
is a directive on the anchor tags give the router control over those elements.
Since the navigation paths are fixed, you can assign string values to
router-link directive as below,
<h1>Angular Router</h1>
<nav>
<a routerLink="/todosList"
>List of todos</a>
<a routerLink="/completed"
>Completed todos</a>
</nav>
<router-outlet></router-outlet>
68.
What are active router links?
RouterLinkActive
is a directive that toggles css classes for active RouterLink bindings based on
the current RouterState. i.e, the Router will add CSS classes when this link is
active and and remove when the link is inactive. For example, you can add them
to RouterLinks as below
<h1>Angular Router</h1>
<nav>
<a routerLink="/todosList" routerLinkActive="active">List
of todos</a>
<a routerLink="/completed" routerLinkActive="active">Completed
todos</a>
</nav>
<router-outlet></router-outlet>
69.
What is router state?
RouterState is
a tree of activated routes. Every node in this tree knows about the
"consumed" URL segments, the extracted parameters, and the resolved
data. You can access the current RouterState from anywhere in the application
using the Router service and
the routerState property.
@Component({templateUrl:'template.html'})
class MyComponent {
constructor(router: Router) {
const state: RouterState = router.routerState;
const root: ActivatedRoute = state.root;
const child = root.firstChild;
const id: Observable<string> =
child.params.map(p => p.id);
//...
}
}
70.
What are router events?
During each
navigation, the Router emits navigation events through the Router.events
property allowing you to track the lifecycle of the route.
The sequence
of router events is as below,
i.
NavigationStart,
ii.
RouteConfigLoadStart,
iii.
RouteConfigLoadEnd,
iv.
RoutesRecognized,
v.
GuardsCheckStart,
vi.
ChildActivationStart,
vii.
ActivationStart,
viii.
GuardsCheckEnd,
ix.
ResolveStart,
x.
ResolveEnd,
xi.
ActivationEnd
xii.
ChildActivationEnd
xiii.
NavigationEnd,
xiv.
NavigationCancel,
xv.
NavigationError
xvi.
Scroll
71. What is
activated route?
ActivatedRoute
contains the information about a route associated with a component loaded in an
outlet. It can also be used to traverse the router state tree. The
ActivatedRoute will be injected as a router service to access the information.
In the below example, you can access route path and parameters,
@Component({...})
class MyComponent {
constructor(route: ActivatedRoute) {
const id: Observable<string> =
route.params.pipe(map(p => p.id));
const url: Observable<string> =
route.url.pipe(map(segments => segments.join('')));
//
route.data includes both `data` and `resolve`
const user = route.data.pipe(map(d => d.user));
}
}
72.How do you
define routes?
A router must
be configured with a list of route definitions. You configures the router with
routes via the RouterModule.forRoot() method,
and adds the result to the AppModule's imports array.
const appRoutes:
Routes = [
{ path: 'todo/:id', component: TodoDetailComponent },
{
path: 'todos',
component: TodosListComponent,
data: { title: 'Todos
List' }
},
{ path: '',
redirectTo: '/todos',
pathMatch: 'full'
},
{ path: '**', component: PageNotFoundComponent }
];
@NgModule({
imports: [
RouterModule.forRoot(
appRoutes,
{ enableTracing: true } // <--
debugging purposes only
)
// other
imports here
],
...
})
export class AppModule { }
73.What is the
purpose of Wildcard route?
If the URL
doesn't match any predefined routes then it causes the router to throw an error
and crash the app. In this case, you can use wildcard route. A wildcard route
has a path consisting of two asterisks to match every URL.
For example,
you can define PageNotFoundComponent for wildcard route as below
{ path: '**', component: PageNotFoundComponent }
74.
Do I need a Routing Module
always?
No, the
Routing Module is a design choice. You can skip routing Module (for example,
AppRoutingModule) when the configuration is simple and merge the routing
configuration directly into the companion module (for example, AppModule). But
it is recommended when the configuration is complex and includes specialized
guard and resolver services.
75.What is
Angular Universal?
Angular
Universal is a server-side rendering module for Angular applications in various
scenarios. This is a community driven project and available under
@angular/platform-server package. Recently Angular Universal is integrated with
Angular CLI.
76.
What are different types of
compilation in Angular?
Angular offers
two ways to compile your application,
i.
Just-in-Time (JIT)
ii.
Ahead-of-Time (AOT)
77.What is JIT?
Just-in-Time
(JIT) is a type of compilation that compiles your app in the browser at
runtime. JIT compilation is the default when you run the ng build (build only)
or ng serve (build and serve locally) CLI commands. i.e, the below commands
used for JIT compilation,
ng build
ng serve
78.
What is AOT?
Ahead-of-Time
(AOT) is a type of compilation that compiles your app at build time. For AOT
compilation, include the --aot option
with the ng build or ng serve command as below,
ng build --aot
ng serve --aot
Note: The ng
build command with the --prod meta-flag (ng build
--prod) compiles with AOT by default.
79.
Why do we need compilation
process?
The Angular
components and templates cannot be understood by the browser directly. Due to
that Angular applications require a compilation process before they can run in
a browser. For example, In AOT compilation, both Angular HTML and TypeScript
code converted into efficient JavaScript code during the build phase before
browser runs it.
80.
What are the advantages with
AOT?
Below are the
list of AOT benefits,
i.
Faster rendering: The
browser downloads a pre-compiled version of the application. So it can render
the application immediately without compiling the app.
ii.
Fewer asynchronous requests: It
inlines external HTML templates and CSS style sheets within the application
javascript which eliminates separate ajax requests.
iii.
Smaller Angular framework
download size: Doesn't require downloading the Angular
compiler. Hence it dramatically reduces the application payload.
iv.
Detect template errors earlier: Detects
and reports template binding errors during the build step itself
v.
Better security: It
compiles HTML templates and components into JavaScript. So there won't be any
injection attacks.
81. What are the
ways to control AOT compilation?
You can
control your app compilation in two ways,
i.
By providing template compiler
options in the tsconfig.json file
ii.
By configuring Angular metadata
with decorators
82.
What are the restrictions of
metadata?
In Angular,
You must write metadata with the following general constraints,
i.
Write expression syntax with in
the supported range of javascript features
ii.
The compiler can only reference
symbols which are exported
iii.
Only call the functions
supported by the compiler
iv.
Decorated and data-bound class members
must be public.
83.
What are the two phases of AOT?
The AOT
compiler works in three phases,
i.
Code Analysis: The
compiler records a representation of the source
ii.
Code generation: It
handles the interpretation as well as places restrictions on what it
interprets.
iii.
Validation: In this
phase, the Angular template compiler uses the TypeScript compiler to validate
the binding expressions in templates.
84.
Can I use arrow functions in
AOT?
No, Arrow
functions or lambda functions can’t be used to assign values to the decorator
properties. For example, the following snippet is invalid:
@Component({
providers: [{
provide: MyService, useFactory: () => getService()
}]
})
To fix this,
it has to be changed as following exported function:
function getService(){
return new MyService();
}
@Component({
providers: [{
provide: MyService, useFactory:
getService
}]
})
If you still
use arrow function, it generates an error node in place of the function. When
the compiler later interprets this node, it reports an error to turn the arrow
function into an exported function. Note: From Angular5
onwards, the compiler automatically performs this rewriting while emitting the
.js file.
85.
What is the purpose of metadata
json files?
The
metadata.json file can be treated as a diagram of the overall structure of a
decorator's metadata, represented as an abstract syntax tree(AST). During the
analysis phase, the AOT collector scan the metadata recorded in the Angular
decorators and outputs metadata information in .metadata.json files, one per
.d.ts file.
86.
Can I use any javascript feature
for expression syntax in AOT?
No, the AOT
collector understands a subset of (or limited) JavaScript features. If an
expression uses unsupported syntax, the collector writes an error node to the
.metadata.json file. Later point of time, the compiler reports an error if it
needs that piece of metadata to generate the application code.
87.
What is folding?
The compiler
can only resolve references to exported symbols in the metadata. Where as some
of the non-exported members are folded while generating the code. i.e Folding
is a process in which the collector evaluate an expression during collection
and record the result in the .metadata.json instead of the original expression.
For example, the compiler couldn't refer selector reference because it is not
exported
let selector = 'app-root';
@Component({
selector: selector
})
Will be folded
into inline selector
@Component({
selector: 'app-root'
})
Remember that
the compiler can’t fold everything. For example, spread operator on arrays,
objects created using new keywords and function calls.
88.
What are macros?
The AOT
compiler supports macros in the form of functions or static methods that return
an expression in a single return expression. For example,
let us take a below macro function,
export function
wrapInArray<T>(value: T):
T[] {
return [value];
}
You can use it
inside metadata as an expression,
@NgModule({
declarations: wrapInArray(TypicalComponent)
})
export class TypicalModule {}
The compiler
treats the macro expression as it written directly
@NgModule({
declarations: [TypicalComponent]
})
export class TypicalModule {}
89.
Give an example of few metadata
errors?
Below are some
of the errors encountered in metadata,
i.
Expression form not supported: Some of
the language features outside of the compiler's restricted expression syntax
used in angular metadata can produce this error. Let's see some of these
examples,
ii.
1. export class User { ... }
iii.
const prop = typeof User; // typeof
is not valid in metadata
2. { provide: 'token', useValue: { [prop]:
'value' } }; // bracket
notation is not valid in metadata
iv.
Reference to a local
(non-exported) symbol: The compiler encountered a
referenced to a locally defined symbol that either wasn't exported or wasn't
initialized. Let's take example of this error,
v.
// ERROR
vi.
let username:
string; // neither exported nor initialized
vii.
viii.
@Component({
ix.
selector: 'my-component',
x.
template: ... ,
xi.
providers: [
xii.
{ provide: User, useValue: username
}
xiii.
]
xiv.
})
export class MyComponent {}
You can fix this by either
exporting or initializing the value,
export let username:
string; // exported
(or)
let username = 'John'; //
initialized
xv.
Function calls are not
supported: The compiler does not currently support function
expressions or lambda functions. For example, you cannot set a provider's
useFactory to an anonymous function or arrow function as below.
xvi.
providers: [
xvii.
{ provide: MyStrategy, useFactory: function() { ... }
},
xviii.
{ provide: OtherStrategy, useFactory: () => { ... } }
]
You can fix this with exported
function
export function myStrategy() { ... }
export function otherStrategy() { ... }
... // metadata
providers: [
{ provide: MyStrategy, useFactory:
myStrategy },
{ provide: OtherStrategy, useFactory:
otherStrategy },
xix.
Destructured variable or
constant not supported: The compiler does not
support references to variables assigned by destructuring. For example, you
cannot write something like this:
xx.
import { user } from './user';
xxi.
xxii.
// destructured assignment to
name and age
xxiii.
const {name,
age} = user;
xxiv.
... //metadata
xxv.
providers: [
xxvi.
{provide: Name, useValue: name},
xxvii.
{provide: Age, useValue: age},
]
You can fix this by
non-destructured values
import { user } from './user';
... //metadata
providers: [
{provide: Name,
useValue: user.name},
{provide: Age, useValue:
user.age},
]
90.
What is metadata rewriting?
Metadata
rewriting is the process in which the compiler converts the expression initializing
the fields such as useClass, useValue, useFactory, and data into an exported
variable, which replaces the expression. Remember that the compiler does this
rewriting during the emit of the .js file but not in definition files( .d.ts
file).
91. How do you
provide configuration inheritance?
Angular
Compiler supports configuration inheritance through extends in the
tsconfig.json on angularCompilerOptions. i.e, The configuration from the base
file(for example, tsconfig.base.json) are loaded first, then overridden by
those in the inheriting config file.
{
"extends": "../tsconfig.base.json",
"compilerOptions": {
"experimentalDecorators": true,
...
},
"angularCompilerOptions": {
"fullTemplateTypeCheck": true,
"preserveWhitespaces": true,
...
}
}
92.
How do you specify angular
template compiler options?
The angular
template compiler options are specified as members of the angularCompilerOptions object
in the tsconfig.json file. These options will be specified adjecent to
typescript compiler options.
{
"compilerOptions": {
"experimentalDecorators": true,
...
},
"angularCompilerOptions": {
"fullTemplateTypeCheck": true,
"preserveWhitespaces": true,
...
}
}
93.
How do you enable binding
expression validation?
You can enable
binding expression validation explicitly by adding the compiler option fullTemplateTypeCheck in
the "angularCompilerOptions" of the project's tsconfig.json. It
produces error messages when a type error is detected in a template binding
expression.
For example,
consider the following component:
@Component({
selector: 'my-component',
template: '{{user.contacts.email}}'
})
class MyComponent {
user?: User;
}
This will
produce the following error:
my.component.ts.MyComponent.html(1,1): : Property 'contacts' does not
exist on type 'User'. Did you mean 'contact'?
94.
What is the purpose of any type
cast function?
You can
disable binding expression type checking using $any() type cast function(by
surrounding the expression). In the following example, the error Property
contacts does not exist is suppressed by casting user to the any type.
template:
'{{
$any(user).contacts.email }}'
The $any()
cast function also works with this to allow access to undeclared members of the
component.
template:
'{{
$any(this).contacts.email }}'
95.
What is Non null type assertion
operator?
You can use
the non-null type assertion operator to suppress the Object is possibly
'undefined' error. In the following example, the user and contact properties
are always set together, implying that contact is always non-null if user is non-null.
The error is suppressed in the example by using contact!.email.
@Component({
selector: 'my-component',
template: '<span
*ngIf="user"> {{user.name}} contacted through {{contact!.email}}
</span>'
})
class MyComponent {
user?: User;
contact?: Contact;
setData(user: User, contact: Contact) {
this.user = user;
this.contact = contact;
}
}
96.
What is type narrowing?
The expression
used in an ngIf directive is used to narrow type unions in the Angular template
compiler similar to if expression in typescript. So *ngIf allows the typeScript
compiler to infer that the data used in the binding expression will never be undefined.
@Component({
selector: 'my-component',
template: '<span
*ngIf="user"> {{user.contact.email}} </span>'
})
class MyComponent {
user?: User;
}
97.
How do you describe various
dependencies in angular application?
The
dependencies section of package.json with in an angular application can be
divided as follow,
i.
Angular packages: Angular
core and optional modules; their package names begin @angular/.
ii.
Support packages: Third-party
libraries that must be present for Angular apps to run.
iii.
Polyfill packages: Polyfills
plug gaps in a browser's JavaScript implementation.
98.
What is zone?
A Zone is an
execution context that persists across async tasks. Angular relies on zone.js
to run Angular's change detection processes when native JavaScript operations
raise events
99.
What is the purpose of common
module?
The
commonly-needed services, pipes, and directives provided by @angular/common
module. Apart from these HttpClientModule is available under
@angular/common/http.
100.
What is codelyzer?
Codelyzer
provides set of tslint rules for static code analysis of Angular TypeScript
projects. ou can run the static code analyzer over web apps, NativeScript,
Ionic etc. Angular CLI has support for this and it can be use as below,
ng new codelyzer
ng lint
101.
What is angular animation?
Angular's
animation system is built on CSS functionality in order to animate any property
that the browser considers animatable. These properties includes positions,
sizes, transforms, colors, borders etc. The Angular modules for animations
are @angular/animations and @angular/platform-browser and
these dependencies are automatically added to your project when you create a
project using Angular CLI.
102.
What are the steps to use
animation module?
You need to
follow below steps to implement animation in your angular project,
i.
Enabling the animations module: Import
BrowserAnimationsModule to add animation capabilities into your Angular root
application module(for example, src/app/app.module.ts).
ii.
import { NgModule } from '@angular/core';
iii.
import { BrowserModule } from '@angular/platform-browser';
iv.
import { BrowserAnimationsModule } from '@angular/platform-browser/animations';
v.
vi.
@NgModule({
vii.
imports: [
viii.
BrowserModule,
ix.
BrowserAnimationsModule
x.
],
xi.
declarations: [ ],
xii.
bootstrap: [ ]
xiii.
})
export class AppModule { }
xiv.
Importing animation functions
into component files: Import required animation
functions from @angular/animations in component files(for example, src/app/app.component.ts).
xv.
import {
xvi.
trigger,
xvii.
state,
xviii.
style,
xix.
animate,
xx.
transition,
xxi.
// ...
} from '@angular/animations';
xxii.
Adding the animation metadata
property: add a metadata property called animations: within the
@Component() decorator in component files(for example,
src/app/app.component.ts)
xxiii.
@Component({
xxiv.
selector: 'app-root',
xxv.
templateUrl: 'app.component.html',
xxvi.
styleUrls: ['app.component.css'],
xxvii.
animations: [
xxviii.
// animation triggers go here
xxix.
]
})
103.
What is State function?
Angular's
state() function is used to define different states to call at the end of each
transition. This function takes two arguments: a unique name like open or
closed and a style() function.
For example,
you can write a open state function
state('open', style({
height: '300px',
opacity: 0.5,
backgroundColor: 'blue'
})),
104.
What is Style function?
The style
function is used to define a set of styles to associate with a given state
name. You need to use it along with state() function to set CSS style
attributes. For example, in the close state, the button has a height of 100
pixels, an opacity of 0.8, and a background color of green.
state('close', style({
height: '100px',
opacity: 0.8,
backgroundColor: 'green'
})),
Note: The
style attributes must be in camelCase.
105.
What is the purpose of animate
function?
Angular
Animations are a powerful way to implement sophisticated and compelling
animations for your Angular single page web application.
import { Component, OnInit, Input } from '@angular/core';
import { trigger, state, style,
animate, transition } from '@angular/animations';
@Component({
selector: 'app-animate',
templateUrl: `<div
[@changeState]="currentState" class="myblock
mx-auto"></div>`,
styleUrls: `.myblock {
background-color:
green;
width: 300px;
height: 250px;
border-radius: 5px;
margin: 5rem;
}`,
animations: [
trigger('changeState', [
state('state1', style({
backgroundColor: 'green',
transform: 'scale(1)'
})),
state('state2', style({
backgroundColor: 'red',
transform: 'scale(1.5)'
})),
transition('*=>state1', animate('300ms')),
transition('*=>state2', animate('2000ms'))
])
]
})
export class AnimateComponent implements
OnInit {
@Input() currentState;
constructor() { }
ngOnInit() {
}
}
106.
What is transition function?
The animation
transition function is used to specify the changes that occur between one state
and another over a period of time. It accepts two arguments: the first argument
accepts an expression that defines the direction between two transition states,
and the second argument accepts an animate() function.
Let's take an
example state transition from open to closed with an half second transition
between states.
transition('open =>
closed', [
animate('500ms')
]),
107.
How to inject the dynamic script
in angular?
Using
DomSanitizer we can inject the dynamic Html,Style,Script,Url.
import { Component, OnInit } from '@angular/core';
import { DomSanitizer } from '@angular/platform-browser';
@Component({
selector: 'my-app',
template: `
<div
[innerHtml]="htmlSnippet"></div>
`,
})
export class App {
constructor(protected
sanitizer: DomSanitizer) {}
htmlSnippet: string =
this.sanitizer.bypassSecurityTrustScript("<script>safeCode()</script>");
}
108.
What is a service worker and its
role in Angular?
A service
worker is a script that runs in the web browser and manages caching for an
application. Starting from 5.0.0 version, Angular ships with a service worker
implementation. Angular service worker is designed to optimize the end user
experience of using an application over a slow or unreliable network
connection, while also minimizing the risks of serving outdated content.
109.
What are the design goals of
service workers?
Below are the
list of design goals of Angular's service workers,
i.
It caches an application just
like installing a native application
ii.
A running application continues
to run with the same version of all files without any incompatible files
iii.
When you refresh the
application, it loads the latest fully cached version
iv.
When changes are published then
it immediately updates in the background
v.
Service workers saves the
bandwidth by downloading the resources only when they changed.
110.
What are the differences between
AngularJS and Angular with respect to dependency injection?
Dependency
injection is a common component in both AngularJS and Angular, but there are
some key differences between the two frameworks in how it actually works.
|
AngularJS |
Angular |
|
Dependency
injection tokens are always strings |
Tokens
can have different types. They are often classes and sometimes can be
strings. |
|
There
is exactly one injector even though it is a multi-module applications |
There
is a tree hierarchy of injectors, with a root injector and an additional
injector for each component. |
111.
What is Angular Ivy?
Angular Ivy is
a new rendering engine for Angular. You can choose to opt in a preview version
of Ivy from Angular version 8.
i.
You can enable ivy in a new
project by using the --enable-ivy flag with the ng new command
ng new ivy-demo-app --enable-ivy
ii.
You can add it to an existing
project by adding enableIvy option
in the angularCompilerOptions in your project's tsconfig.app.json.
iii.
{
iv.
"compilerOptions": { ... },
v.
"angularCompilerOptions": {
vi.
"enableIvy": true
vii.
}
}
112.
What are the features included
in ivy preview?
You can expect
below features with Ivy preview,
i.
Generated code that is easier to
read and debug at runtime
ii.
Faster re-build time
iii.
Improved payload size
iv.
Improved template type checking
113.
Can I use AOT compilation with
Ivy?
Yes, it is a
recommended configuration. Also, AOT compilation with Ivy is faster. So you
need set the default build options(with in angular.json) for your project to
always use AOT compilation.
{
"projects": {
"my-project": {
"architect": {
"build": {
"options": {
...
"aot": true,
}
}
}
}
}
}
114.
What is Angular Language
Service?
The Angular
Language Service is a way to get completions, errors, hints, and navigation
inside your Angular templates whether they are external in an HTML file or
embedded in annotations/decorators in a string. It has the ability to
autodetect that you are opening an Angular file, reads your tsconfig.json file,
finds all the templates you have in your application, and then provides all the
language services.
115.
How do you install angular
language service in the project?
You can
install Angular Language Service in your project with the following npm
command,
npm install --save-dev
@angular/language-service
After that add
the following to the "compilerOptions" section of your project's
tsconfig.json
"plugins": [
{"name": "@angular/language-service"}
]
Note: The
completion and diagnostic services works for .ts files only. You need to use
custom plugins for supporting HTML files.
116.
Is there any editor support for
Angular Language Service?
Yes, Angular
Language Service is currently available for Visual Studio Code and WebStorm
IDEs. You need to install angular language service using an extension and
devDependency respectively. In sublime editor, you need to install typescript
which has has a language service plugin model.
117.
Explain the features provided by
Angular Language Service?
Basically
there are 3 main features provided by Angular Language Service,
i.
Autocompletion: Autocompletion
can speed up your development time by providing you with contextual
possibilities and hints as you type with in an interpolation and elements.
ii.
Error checking: It can
also warn you of mistakes in your code.
iii.
Navigation: Navigation
allows you to hover a component, directive, module and then click and press F12
to go directly to its definition.
118.
How do you add web workers in
your application?
You can add
web worker anywhere in your application. For example, If the file that contains
your expensive computation is src/app/app.component.ts, you can add
a Web Worker using ng generate web-worker app command
which will create src/app/app.worker.ts web
worker file. This command will perform below actions,
i.
Configure your project to use
Web Workers
ii.
Adds app.worker.ts to receive
messages
iii.
addEventListener('message', ({ data
}) => {
iv.
const response = `worker
response to ${data}`;
v.
postMessage(response);
});
vi.
The component app.component.ts file
updated with web worker file
vii.
if (typeof Worker !== 'undefined') {
viii.
// Create a new
ix.
const worker = new Worker('./app.worker', { type: 'module' });
x.
worker.onmessage = ({ data })
=> {
xi.
console.log('page got
message: $\{data\}');
xii.
};
xiii.
worker.postMessage('hello');
xiv.
} else {
xv.
// Web Workers are not
supported in this environment.
}
Note: You may
need to refactor your initial scaffolding web worker code for sending messages
to and from.
119.
What are the limitations with
web workers?
You need to
remember two important things when using Web Workers in Angular projects,
i.
Some environments or
platforms(like @angular/platform-server) used in Server-side Rendering, don't
support Web Workers. In this case you need to provide a fallback mechanism to
perform the computations to work in this environments.
ii.
Running Angular in web worker
using @angular/platform-webworker is not
yet supported in Angular CLI.
120.
What is Angular CLI Builder?
In Angular8,
the CLI Builder API is stable and available to developers who want to customize
the Angular CLI by adding or modifying
commands. For example, you could supply a builder to perform an entirely new
task, or to change which third-party tool is used by an existing command.
121.
What is a builder?
A builder
function ia a function that uses the Architect
API to perform a complex process such as "build" or
"test". The builder code is defined in an npm package. For example,
BrowserBuilder runs a webpack build for a browser target and KarmaBuilder
starts the Karma server and runs a webpack build for unit tests.
122.
How do you invoke a builder?
The Angular
CLI command ng run is used to invoke a
builder with a specific target configuration. The workspace configuration
file, angular.json, contains default
configurations for built-in builders.
123.
How do you create app shell in
Angular?
An App shell
is a way to render a portion of your application via a route at build time.
This is useful to first paint of your application that appears quickly because
the browser can render static HTML and CSS without the need to initialize
JavaScript. You can achieve this using Angular CLI which generates an app shell
for running server-side of your app.
ng generate appShell [options] (or)
ng g appShell [options]
124.
What are the case types in
Angular?
Angular uses
capitalization conventions to distinguish the names of various types. Angular
follows the list of the below case types.
i.
camelCase : Symbols,
properties, methods, pipe names, non-component directive selectors, constants
uses lowercase on the first letter of the item. For example,
"selectedUser"
ii.
UpperCamelCase (or PascalCase): Class
names, including classes that define components, interfaces, NgModules,
directives, and pipes uses uppercase on the first letter of the item.
iii.
dash-case (or
"kebab-case"): The descriptive part of
file names, component selectors uses dashes between the words. For example,
"app-user-list".
iv.
UPPER_UNDERSCORE_CASE: All
constants uses capital letters connected with underscores. For example,
"NUMBER_OF_USERS".
125.
What are the class decorators in
Angular?
A class
decorator is a decorator that appears immediately before a class definition,
which declares the class to be of the given type, and provides metadata
suitable to the type
The following
list of decorators comes under class decorators,
i.
@Component()
ii.
@Directive()
iii.
@Pipe()
iv.
@Injectable()
v.
@NgModule()
126.
What are class field decorators?
The class
field decorators are the statements declared immediately before a field in a
class definition that defines the type of that field. Some of the examples are:
@input and @output,
@Input() myProperty;
@Output() myEvent = new EventEmitter();
127.
What is declarable in Angular?
Declarable is
a class type that you can add to the declarations list of an NgModule. The
class types such as components, directives, and pipes comes can be declared in
the module. The structure of declarations would be,
declarations: [
YourComponent,
YourPipe,
YourDirective
],
128.
What are the restrictions on
declarable classes?
Below classes
shouldn't be declared,
i.
A class that's already declared
in another NgModule
ii.
Ngmodule classes
iii.
Service classes
iv.
Helper classes
129.
What is a DI token?
A DI token is
a lookup token associated with a dependency provider in dependency injection
system. The injector maintains an internal token-provider map that it
references when asked for a dependency and the DI token is the key to the map.
Let's take example of DI Token usage,
const BASE_URL = new InjectionToken<string>('BaseUrl');
const injector =
Injector.create({providers: [{provide: BASE_URL, useValue: 'http://some-domain.com'}]});
const url = injector.get(BASE_URL);
130.
What is Angular DSL?
A
domain-specific language (DSL) is a computer language specialized to a
particular application domain. Angular has its own Domain Specific Language
(DSL) which allows us to write Angular specific html-like syntax on top of
normal html. It has its own compiler that compiles this syntax to html that the
browser can understand. This DSL is defined in NgModules such as animations,
forms, and routing and navigation.
Basically you
will see 3 main syntax in Angular DSL.
i.
(): Used for
Output and DOM events.
ii.
[]: Used for
Input and specific DOM element attributes.
iii.
*: Structural
directives(*ngFor or *ngIf) will affect/change the DOM structure.
131.
what is an rxjs subject in
Angular
An RxJS
Subject is a special type of Observable that allows values to be multicasted to
many Observers. While plain Observables are unicast (each subscribed Observer
owns an independent execution of the Observable), Subjects are multicast.
A Subject is
like an Observable, but can multicast to many Observers. Subjects are like
EventEmitters: they maintain a registry of many listeners.
import { Subject
} from 'rxjs';
const subject = new
Subject<number>();
subject.subscribe({
next: (v) => console.log(`observerA:
${v}`)
});
subject.subscribe({
next: (v) => console.log(`observerB:
${v}`)
});
subject.next(1);
subject.next(2);
132.
What is Bazel tool?
Bazel is a
powerful build tool developed and massively used by Google and it can keep
track of the dependencies between different packages and build targets. In
Angular8, you can build your CLI application with Bazel. Note: The
Angular framework itself is built with Bazel.
133.
What are the advantages of Bazel
tool?
Below are the
list of key advantages of Bazel tool,
i.
It creates the possibility of
building your back-ends and front-ends with the same tool
ii.
The incremental build and tests
iii.
It creates the possibility to
have remote builds and cache on a build farm.
134.
How do you use Bazel with
Angular CLI?
The
@angular/bazel package provides a builder that allows Angular CLI to use Bazel
as the build tool.
i.
Use in an existing applciation: Add
@angular/bazel using CLI
ng add @angular/bazel
ii.
Use in a new application: Install
the package and create the application with collection option
iii.
npm install -g
@angular/bazel
ng new --collection=@angular/bazel
When you use
ng build and ng serve commands, Bazel is used behind the scenes and outputs the
results in dist/bin folder.
135.
How do you run Bazel directly?
Sometimes you
may want to bypass the Angular CLI builder and run Bazel directly using Bazel
CLI. You can install it globally using @bazel/bazel npm package. i.e, Bazel CLI
is available under @bazel/bazel package. After you can apply the below common
commands,
bazel build [targets] // Compile the default output artifacts of
the given targets.
bazel test [targets] // Run the tests with *_test targets found in
the pattern.
bazel run [target]: Compile the program represented by target and
then run it.
136.
What is platform in Angular?
A platform is
the context in which an Angular application runs. The most common platform for
Angular applications is a web browser, but it can also be an operating system
for a mobile device, or a web server. The runtime-platform is provided by the
@angular/platform-* packages and these packages allow applications that make
use of @angular/core and @angular/common to
execute in different environments. i.e, Angular can be used as
platform-independent framework in different environments, For example,
i.
While running in the browser, it
uses platform-browser package.
ii.
When SSR(server-side rendering )
is used, it uses platform-server package
for providing web server implementation.
137.
What happens if I import the
same module twice?
If multiple
modules imports the same module then angular evaluates it only once (When it
encounters the module first time). It follows this condition even the module
appears at any level in a hierarchy of imported NgModules.
138.
How do you select an element
with in a component template?
You can
use @ViewChild directive to access
elements in the view directly. Let's take input element with a reference,
<input #uname>
and define
view child directive and access it in ngAfterViewInit lifecycle hook
@ViewChild('uname') input;
ngAfterViewInit() {
console.log(this.input.nativeElement.value);
}
139.
How do you detect route change
in Angular?
In Angular7,
you can subscribe to router to detect the changes. The subscription for router
events would be as below,
this.router.events.subscribe((event: Event) => {})
Let's take a
simple component to detect router changes
import { Component } from '@angular/core';
import { Router, Event, NavigationStart, NavigationEnd, NavigationError } from '@angular/router';
@Component({
selector: 'app-root',
template: `<router-outlet></router-outlet>`
})
export class AppComponent {
constructor(private
router: Router) {
this.router.events.subscribe((event: Event) => {
if (event instanceof NavigationStart) {
// Show
loading indicator and perform an action
}
if (event instanceof NavigationEnd) {
// Hide
loading indicator and perform an action
}
if (event instanceof NavigationError) {
// Hide
loading indicator and perform an action
console.log(event.error); // It logs
an error for debugging
}
});
}
}
140.
How do you pass headers for HTTP
client?
You can
directly pass object map for http client or create HttpHeaders class to supply
the headers.
constructor(private _http: HttpClient) {}
this._http.get('someUrl',{
headers: {'header1':'value1','header2':'value2'}
});
(or)
let headers = new HttpHeaders().set('header1',
headerValue1); // create header object
headers = headers.append('header2',
headerValue2); // add a new header, creating a new object
headers = headers.append('header3',
headerValue3); // add another header
let params = new HttpParams().set('param1', value1); // create
params object
params = params.append('param2', value2); // add a
new param, creating a new object
params = params.append('param3', value3); // add
another param
return this._http.get<any[]>('someUrl', { headers: headers, params: params })
141.
What is the purpose of
differential loading in CLI?
From Angular8
release onwards, the applications are built using differential loading strategy
from CLI to build two separate bundles as part of your deployed application.
i.
The first build contains ES2015
syntax which takes the advantage of built-in support in modern browsers, ships
less polyfills, and results in a smaller bundle size.
ii.
The second build contains old ES5
syntax to support older browsers with all necessary polyfills. But this results
in a larger bundle size.
Note: This
strategy is used to support multiple browsers but it only load the code that
the browser needs.
142.
Is Angular supports dynamic
imports?
Yes, Angular 8
supports dynamic imports in router configuration. i.e, You can use the import
statement for lazy loading the module using loadChildren method
and it will be understood by the IDEs(VSCode and WebStorm), webpack, etc.
Previously, you have been written as below to lazily load the feature module.
By mistake, if you have typo in the module name it still accepts the string and
throws an error during build time.
{path: ‘user’, loadChildren: ‘./users/user.module#UserModulee’},
This problem
is resolved by using dynamic imports and IDEs are able to find it during
compile time itself.
{path: ‘user’, loadChildren: () => import(‘./users/user.module’).then(m => m.UserModule)};
143.
What is lazy loading?
Lazy loading
is one of the most useful concepts of Angular Routing. It helps us to download
the web pages in chunks instead of downloading everything in a big bundle. It
is used for lazy loading by asynchronously loading the feature module for
routing whenever required using the property loadChildren. Let's load
both Customer and Order feature
modules lazily as below,
const routes: Routes = [
{
path: 'customers',
loadChildren: () => import('./customers/customers.module').then(module => module.CustomersModule)
},
{
path: 'orders',
loadChildren: () => import('./orders/orders.module').then(module => module.OrdersModule)
},
{
path: '',
redirectTo: '',
pathMatch: 'full'
}
];
144.
What are workspace APIs?
Angular 8.0
release introduces Workspace APIs to make it easier for developers to read and
modify the angular.json file instead of manually modifying it. Currently, the
only supported storage3 format is the JSON-based format used by the Angular
CLI. You can enable or add optimization option for build target as below,
import { NodeJsSyncHost } from '@angular-devkit/core/node';
import { workspaces } from '@angular-devkit/core';
async function addBuildTargetOption() {
const host =
workspaces.createWorkspaceHost(new NodeJsSyncHost());
const workspace = await
workspaces.readWorkspace('path/to/workspace/directory/', host);
const project = workspace.projects.get('my-app');
if (!project)
{
throw new Error('my-app
does not exist');
}
const
buildTarget = project.targets.get('build');
if
(!buildTarget) {
throw new Error('build
target does not exist');
}
buildTarget.options.optimization = true;
await
workspaces.writeWorkspace(workspace, host);
}
addBuildTargetOption();
145.
How do you upgrade angular
version?
The Angular
upgrade is quite easier using Angular CLI ng update command
as mentioned below. For example, if you upgrade from Angular 7 to 8 then your
lazy loaded route imports will be migrated to the new import syntax
automatically.
$ ng update @angular/cli @angular/core
146.
What is Angular Material?
Angular
Material is a collection of Material Design components for Angular framework
following the Material Design spec. You can apply Material Design very easily
using Angular Material. The installation can be done through npm or yarn,
npm install --save @angular/material @angular/cdk
@angular/animations
(OR)
yarn add @angular/material @angular/cdk @angular/animations
It supports
the most recent two versions of all major browsers. The latest version of
Angular material is 8.1.1
147.
How do you upgrade location
service of angularjs?
If you are using $location service
in your old AngularJS application, now you can use LocationUpgradeModule(unified
location service) which puts the responsibilities of $location service
to Location service in Angular. Let's
add this module to AppModule as
below,
// Other imports ...
import { LocationUpgradeModule } from '@angular/common/upgrade';
@NgModule({
imports: [
// Other
NgModule imports...
LocationUpgradeModule.config()
]
})
export class AppModule {}
148.
What is NgUpgrade?
NgUpgrade is a
library put together by the Angular team, which you can use in your
applications to mix and match AngularJS and Angular components and bridge the
AngularJS and Angular dependency injection systems.
149.
How do you test Angular
application using CLI?
Angular CLI
downloads and install everything needed with the Jasmine Test framework. You
just need to run ng test to see
the test results. By default this command builds the app in watch mode, and
launches the Karma test runner. The output
of test results would be as below,
10% building modules 1/1 modules 0 active
...INFO [karma]: Karma v1.7.1 server started at
http://0.0.0.0:9876/
...INFO [launcher]: Launching browser Chrome ...
...INFO [launcher]: Starting browser Chrome
...INFO [Chrome ...]: Connected on socket ...
Chrome ...: Executed 3 of 3 SUCCESS (0.135 secs / 0.205 secs)
Note: A chrome
browser also opens and displays the test output in the "Jasmine HTML Reporter".
150.
How to use polyfills in Angular
application?
The Angular
CLI provides support for polyfills officially. When you create a new project
with the ng new command, a src/polyfills.ts configuration
file is created as part of your project folder. This file includes the
mandatory and many of the optional polyfills as JavaScript import statements.
Let's categorize the polyfills,
i.
Mandatory polyfills: These
are installed automatically when you create your project with ng new command
and the respective import statements enabled in 'src/polyfills.ts' file.
ii.
Optional polyfills: You need
to install its npm package and then create import statement in
'src/polyfills.ts' file. For example, first you need to install below npm
package for adding web animations (optional) polyfill. bash npm
install --save web-animations-js and create import statement in
polyfill file. javascript import 'web-animations-js';
151.
What are the ways to trigger
change detection in Angular?
You can inject
either ApplicationRef or NgZone, or ChangeDetectorRef into your component and
apply below specific methods to trigger change detection in Angular. i.e, There
are 3 possible ways,
i.
ApplicationRef.tick(): Invoke
this method to explicitly process change detection and its side-effects. It
check the full component tree.
ii.
NgZone.run(callback): It
evaluate the callback function inside the Angular zone.
iii.
ChangeDetectorRef.detectChanges(): It
detects only the components and it's children.
152.
What are the differences of
various versions of Angular?
There are
different versions of Angular framework. Let's see the features of all the
various versions,
i.
Angular 1:
§ Angular 1
(AngularJS) is the first angular framework released in the year 2010.
§ AngularJS is
not built for mobile devices.
§ It is based on
controllers with MVC architecture.
ii.
Angular 2:
§ Angular 2 was
released in the year 2016. Angular 2 is a complete rewrite of Angular1 version.
§ The
performance issues that Angular 1 version had has been addressed in Angular 2
version.
§ Angular 2 is
built from scratch for mobile devices unlike Angular 1 version.
§ Angular 2 is
components based.
iii.
Angular 3:
§ The following
are the different package versions in Angular 2:
§ @angular/core
v2.3.0
§ @angular/compiler
v2.3.0
§ @angular/http
v2.3.0
§ @angular/router
v3.3.0
§ The router
package is already versioned 3 so to avoid confusion switched to Angular 4
version and skipped 3 version.
iv.
Angular 4:
§ The compiler
generated code file size in AOT mode is very much reduced.
§ With Angular 4
the production bundles size is reduced by hundreds of KB’s.
§ Animation
features are removed from angular/core and formed as a separate package.
§ Supports
Typescript 2.1 and 2.2.
§ Angular
Universal
§ New HttpClient
v.
Angular 5:
§ Angular 5
makes angular faster. It improved the loading time and execution time.
§ Shipped with
new build optimizer.
§ Supports
Typescript 2.5.
§ Service Worker
vi.
Angular 6:
§ It is released
in May 2018.
§ Includes
Angular Command Line Interface (CLI), Component Development KIT (CDK), Angular
Material Package, Angular Elements.
§ Service Worker
bug fixes.
§ i18n
§ Experimental
mode for Ivy.
§ RxJS 6.0
§ Tree Shaking
vii.
Angular 7:
§ It is released
in October 2018.
§ TypeScript 3.1
§ RxJS 6.3
§ New Angular
CLI
§ CLI Prompts
capability provide an ability to ask questions to the user before they run. It
is like interactive dialog between the user and the CLI
§ With the
improved CLI Prompts capability, it helps developers to make the decision. New
ng commands ask users for routing and CSS styles types(SCSS) and ng add
@angular/material asks for themes and gestures or animations.
viii.
Angular 8:
§ It is released
in May 2019.
§ TypeScript 3.4
ix.
Angular 9:
§ It is released
in February 2020.
§ TypeScript 3.7
§ Ivy enabled by
default
x.
Angular 10:
§ It is released
in June 2020.
§ TypeScript 3.9
§ TSlib 2.0
153.
What are the security principles
in angular?
Below are the
list of security principles in angular,
i.
You should avoid direct use of the
DOM APIs.
ii.
You should enable Content
Security Policy (CSP) and configure your web server to return appropriate CSP
HTTP headers.
iii.
You should Use the offline
template compiler.
iv.
You should Use Server Side XSS
protection.
v.
You should Use DOM Sanitizer.
vi.
You should Preventing CSRF or
XSRF attacks.
154.
What is the reason to deprecate
Web Tracing Framework?
Angular has
supported the integration with the Web Tracing Framework (WTF) for the purpose
of performance testing. Since it is not well maintained and failed in majority
of the applications, the support is deprecated in latest releases.
155.
What is the reason to deprecate
web worker packages?
Both @angular/platform-webworker and @angular/platform-webworker-dynamic are
officially deprecated, the Angular team realized it's not good practice to run
the Angular application on Web worker
156.
How do you find angular CLI
version?
Angular CLI
provides it's installed version using below different ways using ng command,
ng v
ng version
ng -v
ng --version
and the output
would be as below,
Angular CLI: 1.6.3
Node: 8.11.3
OS: darwin x64
Angular:
...
157.
What is the browser support for
Angular?
Angular
supports most recent browsers which includes both desktop and mobile browsers.
|
Browser |
Version |
|
Chrome |
latest |
|
Firefox |
latest |
|
Edge |
2
most recent major versions |
|
IE |
11,
10, 9 (Compatibility mode is not supported) |
|
Safari |
2
most recent major versions |
|
IE
Mobile |
11 |
|
iOS |
2
most recent major versions |
|
Android |
7.0,
6.0, 5.0, 5.1, 4.4 |
158.
What is schematic?
It's a
scaffolding library that defines how to generate or transform a programming
project by creating, modifying, refactoring, or moving files and code. It
defines rules that operate on a virtual file system called a tree.
159.
What is rule in Schematics?
In schematics
world, it's a function that operates on a file tree to create, delete, or
modify files in a specific manner.
160.
What is Schematics CLI?
Schematics
come with their own command-line tool known as Schematics CLI. It is used to
install the schematics executable, which you can use to create a new schematics
collection with an initial named schematic. The collection folder is a
workspace for schematics. You can also use the schematics command to add a new schematic
to an existing collection, or extend an existing schematic. You can install
Schematic CLI globally as below,
npm install -g @angular-devkit/schematics-cli
161.
What are the best practices for
security in angular?
Below are the
best practices of security in angular,
i.
Use the latest Angular library
releases
ii.
Don't modify your copy of
Angular
iii.
Avoid Angular APIs marked in the
documentation as “Security Risk.”
162.
What is Angular security model
for preventing XSS attacks?
Angular treats
all values as untrusted by default. i.e, Angular sanitizes and escapes
untrusted values When a value is inserted into the DOM from a template, via
property, attribute, style, class binding, or interpolation.
163.
What is the role of template
compiler for prevention of XSS attacks?
The offline
template compiler prevents vulnerabilities caused by template injection, and
greatly improves application performance. So it is recommended to use offline
template compiler in production deployments without dynamically generating any
template.
164.
What are the various security
contexts in Angular?
Angular
defines the following security contexts for sanitization,
i.
HTML: It is
used when interpreting a value as HTML such as binding to innerHtml.
ii.
Style: It is
used when binding CSS into the style property.
iii.
URL: It is
used for URL properties such as <a href>.
iv.
Resource URL: It is a
URL that will be loaded and executed as code such as <script
src>.
165.
What is Sanitization? Is angular
supports it?
Sanitization is the
inspection of an untrusted value, turning it into a value that's safe to insert
into the DOM. Yes, Angular suppports sanitization. It sanitizes untrusted
values for HTML, styles, and URLs but sanitizing resource URLs isn't possible
because they contain arbitrary code.
166.
What is the purpose of
innerHTML?
The innerHtml
is a property of HTML-Elements, which allows you to set it's html-content
programmatically. Let's display the below html code snippet in a <div> tag as
below using innerHTML binding,
<div [innerHTML]="htmlSnippet"></div>
and define the
htmlSnippet property from any component
export class
myComponent {
htmlSnippet: string = '<b>Hello
World</b>, Angular';
}
Unfortunately
this property could cause Cross Site Scripting (XSS) security bugs when
improperly handled.
167.
What is the difference between
interpolated content and innerHTML?
The main
difference between interpolated and innerHTML code is the behavior of code
interpreted. Interpolated content is always escaped i.e, HTML isn't interpreted
and the browser displays angle brackets in the element's text content. Where as
in innerHTML binding, the content is interpreted i.e, the browser will convert
< and > characters as HTMLEntities. For example, the usage in template
would be as below,
<p>Interpolated value:</p>
<div >{{htmlSnippet}}</div>
<p>Binding of
innerHTML:</p>
<div [innerHTML]="htmlSnippet"></div>
and the
property defined in a component.
export class InnerHtmlBindingComponent {
htmlSnippet = 'Template
<script>alert("XSS Attack")</script> <b>Code
attached</b>';
}
Even though
innerHTML binding create a chance of XSS attack, Angular recognizes the value
as unsafe and automatically sanitizes it.
168.
How do you prevent automatic
sanitization?
Sometimes the
applications genuinely need to include executable code such as displaying <iframe> from an
URL. In this case, you need to prevent automatic sanitization in Angular by
saying that you inspected a value, checked how it was generated, and made sure
it will always be secure. Basically it involves 2 steps,
i.
Inject DomSanitizer: You can
inject DomSanitizer in component as parameter in constructor
ii.
Mark the trusted value by
calling some of the below methods
a.
bypassSecurityTrustHtml
b.
bypassSecurityTrustScript
c.
bypassSecurityTrustStyle
d.
bypassSecurityTrustUrl
e.
bypassSecurityTrustResourceUrl
For
example,The usage of dangerous url to trusted url would be as below,
constructor(private sanitizer: DomSanitizer) {
this.dangerousUrl = 'javascript:alert("XSS
attack")';
this.trustedUrl = sanitizer.bypassSecurityTrustUrl(this.dangerousUrl);
169.
Is safe to use direct DOM API
methods in terms of security?
No,the
built-in browser DOM APIs or methods don't automatically protect you from
security vulnerabilities. In this case it is recommended to use Angular
templates instead of directly interacting with DOM. If it is unavoidable then
use the built-in Angular sanitization functions.
170.
What is DOM sanitizer?
DomSanitizer is used
to help preventing Cross Site Scripting Security bugs (XSS) by sanitizing
values to be safe to use in the different DOM contexts.
171.
How do you support server side
XSS protection in Angular application?
The
server-side XSS protection is supported in an angular application by using a
templating language that automatically escapes values to prevent XSS vulnerabilities
on the server. But don't use a templating language to generate Angular
templates on the server side which creates a high risk of introducing
template-injection vulnerabilities.
172.
Is angular prevents http level
vulnerabilities?
Angular has
built-in support for preventing http level vulnerabilities such as as
cross-site request forgery (CSRF or XSRF) and cross-site script inclusion
(XSSI). Even though these vulnerabilities need to be mitigated on server-side,
Angular provides helpers to make the integration easier on the client side.
i.
HttpClient supports a token
mechanism used to prevent XSRF attacks
ii.
HttpClient library recognizes
the convention of prefixed JSON responses(which non-executable js code with
")]}',\n" characters) and automatically strips the string
")]}',\n" from all responses before further parsing
173.
What are Http Interceptors?
Http
Interceptors are part of @angular/common/http, which inspect and transform HTTP
requests from your application to the server and vice-versa on HTTP responses.
These interceptors can perform a variety of implicit tasks, from authentication
to logging.
The syntax of
HttpInterceptor interface looks like as below,
interface HttpInterceptor {
intercept(req: HttpRequest<any>, next: HttpHandler): Observable<HttpEvent<any>>
}
You can use
interceptors by declaring a service class that implements the intercept()
method of the HttpInterceptor interface.
@Injectable()
export class MyInterceptor implements
HttpInterceptor {
constructor() {}
intercept(req: HttpRequest<any>, next: HttpHandler): Observable<HttpEvent<any>> {
...
}
}
After that you
can use it in your module,
@NgModule({
...
providers: [
{
provide: HTTP_INTERCEPTORS,
useClass: MyInterceptor,
multi: true
}
]
...
})
export class AppModule {}
174.
What are the applications of
HTTP interceptors?
The HTTP
Interceptors can be used for different variety of tasks,
i.
Authentication
ii.
Logging
iii.
Caching
iv.
Fake backend
v.
URL transformation
vi.
Modifying headers
175.
Is multiple interceptors
supported in Angular?
Yes, Angular
supports multiple interceptors at a time. You could define multiple
interceptors in providers property:
providers: [
{ provide: HTTP_INTERCEPTORS, useClass: MyFirstInterceptor, multi: true },
{ provide: HTTP_INTERCEPTORS, useClass: MySecondInterceptor, multi: true }
],
The
interceptors will be called in the order in which they were provided. i.e,
MyFirstInterceptor will be called first in the above interceptors
configuration.
176.
How can I use interceptor for an
entire application?
You can use
same instance of HttpInterceptors for the
entire app by importing the HttpClientModule only in
your AppModule, and add the interceptors to the root application injector. For
example, let's define a class that is injectable in root application.
@Injectable()
export class MyInterceptor implements
HttpInterceptor {
intercept(
req: HttpRequest<any>,
next: HttpHandler
): Observable<HttpEvent<any>> {
return next.handle(req).do(event => {
if (eventt instanceof HttpResponse) {
// Code
goes here
}
});
}
}
After that
import HttpClientModule in AppModule
@NgModule({
declarations: [AppComponent],
imports: [BrowserModule, HttpClientModule],
providers: [
{ provide: HTTP_INTERCEPTORS, useClass: MyInterceptor, multi: true }
],
bootstrap: [AppComponent]
})
export class AppModule {}
177.
How does Angular simplifies
Internationalization?
Angular
simplifies the below areas of internationalization,
i.
Displaying dates, number,
percentages, and currencies in a local format.
ii.
Preparing text in component
templates for translation.
iii.
Handling plural forms of words.
iv.
Handling alternative text.
178.
How do you manually register
locale data?
By default,
Angular only contains locale data for en-US which is English as spoken in the
United States of America . But if you want to set to another locale, you must
import locale data for that new locale. After that you can register using registerLocaleData method
and the syntax of this method looks like below,
registerLocaleData(data: any, localeId?: any,
extraData?: any): void
For example,
let us import German locale and register it in the application
import { registerLocaleData } from '@angular/common';
import localeDe from '@angular/common/locales/de';
registerLocaleData(localeDe, 'de');
179.
What are the four phases of
template translation?
The i18n
template translation process has four phases:
i.
Mark static text messages in
your component templates for translation: You can
place i18n on every element tag whose fixed text is to be translated. For
example, you need i18n attribue for heading as below,
<h1 i18n>Hello i18n!</h1>
ii.
Create a translation file: Use the
Angular CLI xi18n command to extract the marked text into an industry-standard
translation source file. i.e, Open terminal window at the root of the app
project and run the CLI command xi18n.
ng xi18n
The above
command creates a file named messages.xlf in your
project's root directory.
Note: You can
supply command options to change the format, the name, the location, and the
source locale of the extracted file.
iii.
Edit the generated translation
file: Translate the extracted text into the target language. In
this step, create a localization folder (such as locale)under root
directory(src) and then create target language translation file by copying and
renaming the default messages.xlf file. You need to copy source text node and
provide the translation under target tag. For example, create the translation
file(messages.de.xlf) for German language
iv.
<trans-unit id="greetingHeader" datatype="html">
v.
<source>Hello i18n!</source>
vi.
<target>Hallo i18n
!</target>
vii.
<note priority="1" from="description">A welcome
header for this sample</note>
viii.
<note priority="1" from="meaning">welcome message</note>
</trans-unit>
ix.
Merge the completed translation
file into the app: You need to use Angular
CLI build command to compile the app, choosing a locale-specific configuration,
or specifying the following command options.
.
--i18nFile=path to the
translation file
a.
--i18nFormat=format of the
translation file
b.
--i18nLocale= locale id
180.
What is the purpose of i18n
attribute?
The Angular
i18n attribute marks translatable content. It is a custom attribute, recognized
by Angular tools and compilers. The compiler removes it after translation.
Note: Remember
that i18n is not an Angular directive.
181.
What is the purpose of custom
id?
When you
change the translatable text, the Angular extractor tool generates a new id for
that translation unit. Because of this behavior, you must then update the
translation file with the new id every time.
For example,
the translation file messages.de.xlf.html has
generated trans-unit for some text message as below
<trans-unit id="827wwe104d3d69bf669f823jjde888" datatype="html">
You can avoid
this manual update of id attribute
by specifying a custom id in the i18n attribute by using the prefix @@.
<h1 i18n="@@welcomeHeader">Hello i18n!</h1>
182.
What happens if the custom id is
not unique?
You need to
define custom ids as unique. If you use the same id for two different text
messages then only the first one is extracted. But its translation is used in
place of both original text messages.
For example,
let's define same custom id myCustomId for two
messages,
<h2 i18n="@@myCustomId">Good
morning</h3>
<!-- ... -->
<h2 i18n="@@myCustomId">Good
night</p>
and the
translation unit generated for first text in for German language as
<trans-unit id="myId" datatype="html">
<source>Good
morning</source>
<target state="new">Guten
Morgen</target>
</trans-unit>
Since custom
id is the same, both of the elements in the translation contain the same text
as below
<h2>Guten Morgen</h2>
<h2>Guten Morgen</h2>
183.
Can I translate text without
creating an element?
Yes, you can
achieve using <ng-container> attribute.
Normally you need to wrap a text content with i18n attribute for the
translation. But if you don't want to create a new DOM element just for the
sake of translation, you can wrap the text in an element.
<ng-container i18n>I'm not
using any DOM element for translation</ng-container>
Remember
that <ng-container> is transformed into an
html comment
184.
How can I translate attribute?
You can
translate attributes by attaching i18n-x attribute
where x is the name of the attribute to translate. For example, you can
translate image title attribute as below,
<img [src]="example" i18n-title title="Internationlization"
/>
By the way,
you can also assign meaning, description and id with the i18n-x="|@@"
syntax.
185.
List down the pluralization
categories?
Pluralization
has below categories depending on the language.
i.
=0 (or any other number)
ii.
zero
iii.
one
iv.
two
v.
few
vi.
many
vii.
other
186.
What is select ICU expression?
ICU expression
is is similar to the plural expressions except that you choose among
alternative translations based on a string value instead of a number. Here you
define those string values.
Let's take
component binding with residenceStatus property
which has "citizen", "permanent resident" and
"foreigner" possible values and the message maps those values to the
appropriate translations.
<span i18n>The person
is {residenceStatus, select, citizen {citizen} permanent resident
{permanentResident} foreigner {foreigner}}</span>
187.
How do you report missing
translations?
By default,
When translation is missing, it generates a warning message such as
"Missing translation for message 'somekey'". But you can configure
with a different level of message in Angular compiler as below,
i.
Error: It
throws an error. If you are using AOT compilation, the build will fail. But if
you are using JIT compilation, the app will fail to load.
ii.
Warning (default): It shows
a 'Missing translation' warning in the console or shell.
iii.
Ignore: It
doesn't do anything.
If you use AOT
compiler then you need to perform changes in configurations section
of your Angular CLI configuration file, angular.json.
"configurations": {
...
"de": {
...
"i18nMissingTranslation": "error"
}
}
If you use the
JIT compiler, specify the warning level in the compiler config at bootstrap by
adding the 'MissingTranslationStrategy' property as below,
import { MissingTranslationStrategy } from '@angular/core';
import { platformBrowserDynamic } from '@angular/platform-browser-dynamic';
import { AppModule } from './app/app.module';
platformBrowserDynamic().bootstrapModule(AppModule, {
missingTranslation: MissingTranslationStrategy.Error,
providers: [
// ...
]
});
188.
How do you provide build
configuration for multiple locales?
You can
provide build configuration such as translation file path, name, format and
application url in configuration settings
of Angular.json file. For example, the German version of your application
configured the build as follows,
"configurations": {
"de": {
"aot": true,
"outputPath": "dist/my-project-de/",
"baseHref": "/fr/",
"i18nFile": "src/locale/messages.de.xlf",
"i18nFormat": "xlf",
"i18nLocale": "de",
"i18nMissingTranslation": "error",
}
189.
What is an angular library?
An Angular
library is an Angular project that differs from an app in that it cannot run on
its own. It must be imported and used in an app. For example, you can import or
add service worker library to an Angular
application which turns an application into a Progressive Web App (PWA).
Note: You can
create own third party library and publish it as npm package to be used in an
Application.
190.
What is AOT compiler?
The AOT
compiler is part of a build process that produces a small, fast, ready-to-run
application package, typically for production. It converts your Angular HTML
and TypeScript code into efficient JavaScript code during the build phase
before the browser downloads and runs that code.
191.
How do you select an element in
component template?
You can
control any DOM element via ElementRef by injecting it into your component's
constructor. i.e, The component should have constructor with ElementRef
parameter,
constructor(myElement: ElementRef) {
el.nativeElement.style.backgroundColor = 'yellow';
}
192.
What is TestBed?
TestBed is an
api for writing unit tests for Angular applications and it's libraries. Even
though We still write our tests in Jasmine and run using Karma, this API
provides an easier way to create components, handle injection, test
asynchronous behaviour and interact with our application.
193.
What is protractor?
Protractor is
an end-to-end test framework for Angular and AngularJS applications. It runs
tests against your application running in a real browser, interacting with it
as a user would.
npm install -g
protractor
194.
What is collection?
Collection is
a set of related schematics collected in an npm package. For example, @schematics/angular collection
is used in Angular CLI to apply transforms to a web-app project. You can create
your own schematic collection for customizing angular projects.
195.
How do you create schematics for
libraries?
You can create
your own schematic collections to integrate your library with the Angular CLI.
These collections are classified as 3 main schematics,
i.
Add schematics: These
schematics are used to install library in an Angular workspace using ng add command.
For example, @angular/material schematic tells the add command to install and
set up Angular Material and theming.
ii.
Generate schematics: These
schematics are used to modify projects, add configurations and scripts, and
scaffold artifacts in library using ng generate command.
For example, @angular/material generation schematic supplies generation
schematics for the UI components. Let's say the table component is generated
using ng generate @angular/material:table .
iii.
Update schematics: These
schematics are used to update library's dependencies and adjust for breaking
changes in a new library release using ng update command.
For example, @angular/material update schematic updates material and cdk
dependencies using ng update @angular/material command.
196.
How do you use jquery in
Angular?
You can use
jquery in Angular using 3 simple steps,
i.
Install the dependency: At
first, install the jquery dependency using npm
npm install --save
jquery
ii.
Add the jquery script: In
Angular-CLI project, add the relative path to jquery in the angular.json file.
iii.
"scripts": [
iv.
"node_modules/jquery/dist/jquery.min.js"
]
v.
Start using jquery: Define
the element in template. Whereas declare the jquery variable and apply CSS
classes on the element.
vi.
<div id="elementId">
vii.
<h1>JQuery
integration</h1>
</div>
import {Component, OnInit} from '@angular/core';
declare var $: any; // (or)
import * as $ from 'jquery';
@Component({
selector: 'app-root',
templateUrl: './app.component.html',
styleUrls: ['./app.component.css']
})
export class AppComponent implements
OnInit {
ngOnInit(): void {
$(document).ready(() => {
$('#elementId').css({'text-color': 'blue', 'font-size': '150%'});
});
}
}
197.
What is the reason for No
provider for HTTP exception?
This exception
is due to missing HttpClientModule in your module. You just need to import in
module as below,
import { HttpClientModule } from '@angular/common/http';
@NgModule({
imports: [
BrowserModule,
HttpClientModule,
],
declarations: [ AppComponent ],
bootstrap: [ AppComponent ]
})
export class AppModule { }
198.
What is router state?
The RouteState
is an interface which represents the state of the router as a tree of activated
routes.
interface RouterState extends Tree {
snapshot: RouterStateSnapshot
toString(): string
}
You can access
the current RouterState from anywhere in the Angular app using the Router
service and the routerState property.
199.
How can I use SASS in angular
project?
When you are
creating your project with angular cli, you can use ng newcommand. It
generates all your components with predefined sass files.
ng new My_New_Project --style=sass
But if you are
changing your existing style in your project then use ng set command,
ng set defaults.styleExt scss
200.
What is the purpose of hidden
property?
The hidden
property is used to show or hide the associated DOM element, based on an
expression. It can be compared close to ng-show directive
in AngularJS. Let's say you want to show user name based on the availability of
user using hidden property.
<div [hidden]="!user.name">
My name is:
{{user.name}}
</div>
201.
What is the difference between
ngIf and hidden property?
The main
difference is that *ngIf will remove the element from the DOM, while [hidden]
actually plays with the CSS style by setting display:none. Generally it
is expensive to add and remove stuff from the DOM for frequent actions.
202.
What is slice pipe?
The slice pipe
is used to create a new Array or String containing a subset (slice) of the
elements. The syntax looks like as below,
{{ value_expression | slice : start [ : end ] }}
For example,
you can provide 'hello' list based on a greeting array,
@Component({
selector: 'list-pipe',
template: `<ul>
<li
*ngFor="let i of greeting | slice:0:5">{{i}}</li>
</ul>`
})
export class PipeListComponent {
greeting: string[] = ['h', 'e', 'l', 'l', 'o', 'm','o', 'r', 'n', 'i', 'n', 'g'];
}
203.
What is index property in ngFor
directive?
The index
property of the NgFor directive is used to return the zero-based index of the
item in each iteration. You can capture the index in a template input variable
and use it in the template.
For example,
you can capture the index in a variable named indexVar and displays it with the
todo's name using ngFor directive as below.
<div *ngFor="let
todo of todos; let i=index">{{i + 1}} -
{{todo.name}}</div>
204.
What is the purpose of ngFor
trackBy?
The main
purpose of using *ngFor with trackBy option is performance optimization.
Normally if you use NgFor with large data sets, a small change to one item by
removing or adding an item, can trigger a cascade of DOM manipulations. In this
case, Angular sees only a fresh list of new object references and to replace
the old DOM elements with all new DOM elements. You can help Angular to track
which items added or removed by providing a trackBy function
which takes the index and the current item as arguments and needs to return the
unique identifier for this item.
For example,
lets set trackBy to the trackByTodos() method
<div *ngFor="let
todo of todos; trackBy: trackByTodos">
({{todo.id}})
{{todo.name}}
</div>
and define the
trackByTodos method,
trackByTodos(index: number, item: Todo): number {
return todo.id; }
205.
What is the purpose of ngSwitch
directive?
NgSwitch directive
is similar to JavaScript switch statement which displays one element from among
several possible elements, based on a switch condition. In this case only the
selected element placed into the DOM. It has been used along with NgSwitch, NgSwitchCase and NgSwitchDefault directives.
For example,
let's display the browser details based on selected browser using ngSwitch
directive.
<div [ngSwitch]="currentBrowser.name">
<chrome-browser *ngSwitchCase="'chrome'" [item]="currentBrowser"></chrome-browser>
<firefox-browser *ngSwitchCase="'firefox'" [item]="currentBrowser"></firefox-browser>
<opera-browser *ngSwitchCase="'opera'" [item]="currentBrowser"></opera-browser>
<safari-browser *ngSwitchCase="'safari'" [item]="currentBrowser"></safari-browser>
<ie-browser *ngSwitchDefault [item]="currentItem"></ie-browser>
</div>
206.
Is it possible to do aliasing
for inputs and outputs?
Yes, it is
possible to do aliasing for inputs and outputs in two ways.
i.
Aliasing in metadata: The
inputs and outputs in the metadata aliased using a colon-delimited (:) string
with the directive property name on the left and the public alias on the right.
i.e. It will be in the format of propertyName:alias.
ii.
inputs: ['input1:
buyItem'],
outputs: ['outputEvent1:
completedEvent']
iii.
Aliasing with @Input()/@Output()
decorator: The alias can be specified for the property name by
passing the alias name to the @Input()/@Output() decorator.i.e. It will be in
the form of @Input(alias) or @Output(alias).
iv.
@Input('buyItem') input1:
string;
@Output('completedEvent')
outputEvent1 = new EventEmitter<string>();
207.
What is safe navigation
operator?
The safe
navigation operator(?)(or known as Elvis Operator) is used to guard against null and undefined values
in property paths when you are not aware whether a path exists or not. i.e. It
returns value of the object path if it exists, else it returns the null value.
For example,
you can access nested properties of a user profile easily without null
reference errors as below,
<p>The user
firstName is: {{user?.fullName.firstName}}</p>
Using this
safe navigation operator, Angular framework stops evaluating the expression
when it hits the first null value and renders the view without any errors.
208.
Is any special configuration
required for Angular9?
You don't need
any special configuration. In Angular9, the Ivy renderer is the default Angular
compiler. Even though Ivy is available Angular8 itself, you had to configure it
in tsconfig.json file as below,
"angularCompilerOptions": { "enableIvy": true }
209.
What are type safe TestBed API
changes in Angular9?
Angular 9
provides type safe changes in TestBed API changes by replacing the old get
function with the new inject method. Because TestBed.get method is not
type-safe. The usage would be as below,
TestBed.get(ChangeDetectorRef) // returns
any. It is deprecated now.
TestBed.inject(ChangeDetectorRef) // returns
ChangeDetectorRef
210.
Is mandatory to pass static flag
for ViewChild?
In Angular 8,
the static flag is required for ViewChild. Whereas in Angular9, you no longer
need to pass this property. Once you updated to Angular9 using ng update, the
migration will remove { static: false } script everywhere.
@ViewChild(ChildDirective) child: ChildDirective; // Angular9
usage
@ViewChild(ChildDirective, { static: false }) child: ChildDirective; //Angular8
usage
211.
What are the list of template
expression operators?
The Angular
template expression language supports three special template expression
operators.
i.
Pipe operator
ii.
Safe navigation operator
iii.
Non-null assertion operator
212.
What is the precedence between
pipe and ternary operators?
The pipe
operator has a higher precedence than the ternary operator (?:). For example,
the expression first ? second : third | fourth is
parsed as first ? second : (third | fourth).
213.
What is an entry component?
An entry
component is any component that Angular loads imperatively(i.e, not referencing
it in the template) by type. Due to this behavior, they can’t be found by the
Angular compiler during compilation. These components created dynamically
with ComponentFactoryResolver.
Basically,
there are two main kinds of entry components which are following -
i.
The bootstrapped root component
ii.
A component you specify in a
route
214.
What is a bootstrapped
component?
A bootstrapped
component is an entry component that Angular loads into the DOM during the
bootstrap process or application launch time. Generally, this bootstrapped or
root component is named as AppComponent in your
root module using bootstrap property
as below.
@NgModule({
declarations: [
AppComponent
],
imports: [
BrowserModule,
FormsModule,
HttpClientModule,
AppRoutingModule
],
providers: [],
bootstrap: [AppComponent] //
bootstrapped entry component need to be declared here
})
215.
How do you manually bootstrap an
application?
You can
use ngDoBootstrap hook for a manual
bootstrapping of the application instead of using bootstrap array in @NgModule annotation.
This hook is part of DoBootstap interface.
interface DoBootstrap {
ngDoBootstrap(appRef: ApplicationRef): void
}
The module
needs to be implement the above interface to use the hook for bootstrapping.
class AppModule implements
DoBootstrap {
ngDoBootstrap(appRef: ApplicationRef) {
appRef.bootstrap(AppComponent); //
bootstrapped entry component need to be passed
}
}
216.
Is it necessary for bootstrapped
component to be entry component?
Yes, the
bootstrapped component needs to be an entry component. This is because the bootstrapping
process is an imperative process.
217.
What is a routed entry
component?
The components
referenced in router configuration are called as routed entry components. This
routed entry component defined in a route definition as below,
const routes: Routes = [
{
path: '',
component: TodoListComponent // router
entry component
}
];
Since router
definition requires you to add the component in two places (router and
entryComponents), these components are always entry components.
Note: The
compilers are smart enough to recognize a router definition and automatically
add the router component into entryComponents.
218.
Why is not necessary to use
entryComponents array every time?
Most of the
time, you don't need to explicity to set entry components in entryComponents
array of ngModule decorator. Because angular adds components from both
@NgModule.bootstrap and route definitions to entry components automatically.
219.
Do I still need to use
entryComponents array in Angular9?
No. In
previous angular releases, the entryComponents array of ngModule decorator is
used to tell the compiler which components would be created and inserted
dynamically in the view. In Angular9, this is not required anymore with Ivy.
220.
Is it all components generated
in production build?
No, only the
entry components and template components appears in production builds. If a
component isn't an entry component and isn't found in a template, the tree
shaker will throw it away. Due to this reason, make sure to add only true entry
components to reduce the bundle size.
221.
What is Angular compiler?
The Angular
compiler is used to convert the application code into JavaScript code. It reads
the template markup, combines it with the corresponding component class code,
and emits component factories which creates JavaScript representation of the
component along with elements of @Component metadata.
222.
What is the role of ngModule
metadata in compilation process?
The @NgModule metadata
is used to tell the Angular compiler what components to be compiled for this module
and how to link this module with other modules.
223.
How does angular finds
components, directives and pipes?
The Angular
compiler finds a component or directive in a template when it can match the
selector of that component or directive in that template. Whereas it finds a
pipe if the pipe's name appears within the pipe syntax of the template HTML.
224.
Give few examples for NgModules?
The Angular
core libraries and third-party libraries are available as NgModules.
i.
Angular libraries such as
FormsModule, HttpClientModule, and RouterModule are NgModules.
ii.
Many third-party libraries such
as Material Design, Ionic, and AngularFire2 are NgModules.
225.
What are feature modules?
Feature
modules are NgModules, which are used for the purpose of organizing code. The
feature module can be created with Angular CLI using the below command in the
root directory,
ng generate module MyCustomFeature //
Angular CLI
creates a folder called my-custom-feature with a
file inside called my-custom-feature.module.ts with the
following contents
import { NgModule } from '@angular/core';
import { CommonModule } from '@angular/common';
@NgModule({
imports: [
CommonModule
],
declarations: []
})
export class MyCustomFeature { }
Note: The
"Module" suffix shouldn't present in the name because the CLI appends
it.
226.
What are the imported modules in
CLI generated feature modules?
In the CLI
generated feature module, there are two JavaScript import statements at the top
of the file
i.
NgModule: InOrder
to use the @NgModule decorator
ii.
CommonModule: It
provides many common directives such as ngIf and ngFor.
227.
What are the differences between
ngmodule and javascript module?
Below are the
main differences between Angular NgModule and javascript module,
|
NgModule |
JavaScript module |
|
NgModule
bounds declarable classes only |
There
is no restriction classes |
|
List
the module's classes in declarations array only |
Can
define all member classes in one giant file |
|
It
only export the declarable classes it owns or imports from other modules |
It
can export any classes |
|
Extend
the entire application with services by adding providers to provides array |
Can't
extend the application with services |
228.
What are the possible errors
with declarations?
There are two
common possible errors with declarations array,
i.
If you use a component without
declaring it, Angular returns an error message.
ii.
If you try to declare the same
class in more than one module then compiler emits an error.
229.
What are the steps to use
declaration elements?
Below are the
steps to be followed to use declaration elements.
i.
Create the element(component,
directive and pipes) and export it from the file where you wrote it
ii.
Import it into the appropriate
module.
iii.
Declare it in the @NgModule
declarations array.
230.
What happens if browserModule
used in feature module?
If you do
import BrowserModule into a lazy loaded feature
module, Angular returns an error telling you to use CommonModule instead.
Because BrowserModule’s providers are for the entire app so it should only be
in the root module, not in feature module. Whereas Feature modules only need
the common directives in CommonModule.
231.
What are the types of feature
modules?
Below are the
five categories of feature modules,
i.
Domain: Deliver
a user experience dedicated to a particular application domain(For example,
place an order, registration etc)
ii.
Routed: These
are domain feature modules whose top components are the targets of router
navigation routes.
iii.
Routing: It
provides routing configuration for another module.
iv.
Service: It
provides utility services such as data access and messaging(For example,
HttpClientModule)
v.
Widget: It makes
components, directives, and pipes available to external modules(For example,
third-party libraries such as Material UI)
232.
What is a provider?
A provider is
an instruction to the Dependency Injection system on how to obtain a value for
a dependency(aka services created). The service can be provided using Angular
CLI as below,
ng generate service my-service
The created
service by CLI would be as below,
import { Injectable } from '@angular/core';
@Injectable({
providedIn: 'root', //Angular
provide the service in root injector
})
export class MyService {
}
233.
What is the recommendation for
provider scope?
You should
always provide your service in the root injector unless there is a case where
you want the service to be available only if you import a particular @NgModule.
234.
How do you restrict provider
scope to a module?
It is possible
to restrict service provider scope to a specific module instead making
available to entire application. There are two possible ways to do it.
i.
Using providedIn in service:
ii.
import { Injectable } from '@angular/core';
iii.
import { SomeModule } from './some.module';
iv.
v.
@Injectable({
vi.
providedIn: SomeModule,
vii.
})
viii.
export class SomeService {
}
ix.
Declare provider for the service
in module:
x.
import { NgModule } from '@angular/core';
xi.
xii.
import { SomeService } from './some.service';
xiii.
xiv.
@NgModule({
xv.
providers: [SomeService],
xvi.
})
xvii.
export class SomeModule {
}
235.
How do you provide a singleton
service?
There are two
possible ways to provide a singleton service.
i.
Set the providedIn property of
the @Injectable() to "root". This is the preferred way(starting from
Angular 6.0) of creating a singleton service since it makes your services
tree-shakable.
ii.
import { Injectable } from '@angular/core';
iii.
iv.
@Injectable({
v.
providedIn: 'root',
vi.
})
vii.
export class MyService {
}
viii.
Include the service in root
module or in a module that is only imported by root module. It has been used to
register services before Angular 6.0.
ix.
@NgModule({
x.
...
xi.
providers: [MyService],
xii.
...
})
236.
What are the different ways to
remove duplicate service registration?
If a module
defines provides and declarations then loading the module in multiple feature
modules will duplicate the registration of the service. Below are the different
ways to prevent this duplicate behavior.
i.
Use the providedIn syntax
instead of registering the service in the module.
ii.
Separate your services into
their own module.
iii.
Define forRoot() and forChild()
methods in the module.
237.
How does forRoot method helpful
to avoid duplicate router instances?
If the RouterModule module
didn’t have forRoot() static method then each feature module would instantiate
a new Router instance, which leads to broken application due to duplicate
instances. After using forRoot() method, the root application module
imports RouterModule.forRoot(...) and gets
a Router, and all feature modules import RouterModule.forChild(...) which
does not instantiate another Router.
238.
What is a shared module?
The Shared
Module is the module in which you put commonly used directives, pipes, and
components into one module that is shared(import it) throughout the
application.
For example,
the below shared module imports CommonModule, FormsModule for common directives
and components, pipes and directives based on the need,
import { CommonModule } from '@angular/common';
import { NgModule } from '@angular/core';
import { FormsModule } from '@angular/forms';
import { UserComponent } from './user.component';
import { NewUserDirective } from './new-user.directive';
import { OrdersPipe } from './orders.pipe';
@NgModule({
imports: [ CommonModule ],
declarations: [ UserComponent, NewUserDirective, OrdersPipe ],
exports: [ UserComponent, NewUserDirective, OrdersPipe,
CommonModule, FormsModule ]
})
export class SharedModule { }
239.
Can I share services using
modules?
No, it is not
recommended to share services by importing module. i.e Import modules when you
want to use directives, pipes, and components only. The best approach to get a
hold of shared services is through 'Angular dependency injection' because
importing a module will result in a new service instance.
240.
How do you get current direction
for locales?
In Angular
9.1, the API method getLocaleDirection can be
used to get the current direction in your app. This method is useful to support
Right to Left locales for your Internationalization based applications.
import { getLocaleDirection,
registerLocaleData } from '@angular/common';
import { LOCALE_ID } from '@angular/core';
import localeAr from '@angular/common/locales/ar';
...
constructor(@Inject(LOCALE_ID) locale) {
const
directionForLocale = getLocaleDirection(locale); // Returns
'rtl' or 'ltr' based on the current locale
registerLocaleData(localeAr, 'ar-ae');
const direction = getLocaleDirection('ar-ae'); // Returns
'rtl'
// Current
direction is used to provide conditional logic here
}
241.
What is ngcc?
The
ngcc(Angular Compatibility Compiler) is a tool which upgrades node_module
compiled with non-ivy ngc into ivy compliant format. The postinstall script
from package.json will make sure your node_modules will be compatible with the
Ivy renderer.
"scripts": {
"postinstall": "ngcc"
}
Whereas, Ivy
compiler (ngtsc), which compiles Ivy-compatible code.
242.
What classes should not be added
to declarations?
The below
class types shouldn't be added to declarations
i.
A class which is already
declared in any another module.
ii.
Directives imported from another
module.
iii.
Module classes.
iv.
Service classes.
v.
Non-Angular classes and objects,
such as strings, numbers, functions, entity models, configurations, business
logic, and helper classes.
243.
What is NgZone?
Angular
provides a service called NgZone which creates a zone named angular to
automatically trigger change detection when the following conditions are
satisfied.
i.
When a sync or async function is
executed.
ii.
When there is no microTask
scheduled.
244.
What is NoopZone?
Zone is
loaded/required by default in Angular applications and it helps Angular to know
when to trigger the change detection. This way, it make sures developers focus
on application development rather core part of Angular. You can also use
Angular without Zone but the change detection need to be implemented on your
own and noop zone need to be configured in
bootstrap process. Let's follow the below two steps to remove zone.js,
i.
Remove the zone.js import from
polyfills.ts.
ii.
/***************************************************************************************************
iii.
* Zone JS is required by default for Angular
itself.
iv.
*/
// import 'zone.js/dist/zone';
// Included with Angular CLI.
v.
Bootstrap Angular with noop zone
in src/main.ts.
vi.
platformBrowserDynamic().bootstrapModule(AppModule, {ngZone: 'noop'})
.catch(err => console.error(err));
245.
How do you create displayBlock
components?
By default,
Angular CLI creates components in an inline displayed mode(i.e,
display:inline). But it is possible to create components with display: block
style using displayBlock option,
ng generate component my-component --displayBlock
(OR) the
option can be turned on by default in Angular.json with schematics.@schematics/angular:component.displayBlock key
value as true.
246.
What are the possible data
update scenarios for change detection?
The change
detection works in the following scenarios where the data changes needs to
update the application HTML.
i.
Component initialization: While
bootstrapping the Angular application, Angular triggers the ApplicationRef.tick() to call
change detection and View Rendering.
ii.
Event listener: The DOM
event listener can update the data in an Angular component and trigger the
change detection too.
iii.
@Component({
iv.
selector: 'app-event-listener',
v.
template: `
vi.
<button
(click)="onClick()">Click</button>
vii.
{{message}}`
viii.
})
ix.
export class EventListenerComponent {
x.
message = '';
xi.
xii.
onClick() {
xiii.
this.message = 'data
updated';
xiv.
}
}
xv.
HTTP Data Request: You can
get data from a server through an HTTP request
xvi.
data = 'default
value';
xvii.
constructor(private
httpClient: HttpClient) {}
xviii.
xix.
ngOnInit() {
xx.
this.httpClient.get(this.serverUrl).subscribe(response => {
xxi.
this.data = response.data; // change
detection will happen automatically
xxii.
});
}
xxiii.
Macro tasks setTimeout() or
setInterval(): You can update the data in the callback
function of setTimeout or setInterval
xxiv.
data = 'default
value';
xxv.
xxvi.
ngOnInit() {
xxvii.
setTimeout(() => {
xxviii.
this.data = 'data
updated'; // Change detection will happen automatically
xxix.
});
}
xxx.
Micro tasks Promises: You can
update the data in the callback function of promise
xxxi.
data = 'initial
value';
xxxii.
xxxiii.
ngOnInit() {
xxxiv.
Promise.resolve(1).then(v => {
xxxv.
this.data = v; // Change
detection will happen automatically
xxxvi.
});
}
xxxvii.
Async operations like Web sockets
and Canvas: The data can be updated asynchronously using
WebSocket.onmessage() and Canvas.toBlob().
247.
What is a zone context?
Execution
Context is an abstract concept that holds information about the environment
within the current code being executed. A zone provides an execution context
that persists across asynchronous operations is called as zone context. For
example, the zone context will be same in both outside and inside setTimeout
callback function,
zone.run(() => {
// outside
zone
expect(zoneThis).toBe(zone);
setTimeout(function() {
// the same
outside zone exist here
expect(zoneThis).toBe(zone);
});
});
The current
zone is retrieved through Zone.current.
248.
What are the lifecycle hooks of
a zone?
There are four
lifecycle hooks for asynchronous operations from zone.js.
i.
onScheduleTask: This
hook triggers when a new asynchronous task is scheduled. For example, when you
call setTimeout()
ii.
onScheduleTask: function(delegate,
curr, target, task) {
iii.
console.log('new task
is scheduled:', task.type, task.source);
iv.
return delegate.scheduleTask(target,
task);
}
v.
onInvokeTask: This
hook triggers when an asynchronous task is about to execute. For example, when
the callback of setTimeout() is about to execute.
vi.
onInvokeTask: function(delegate,
curr, target, task, applyThis, applyArgs) {
vii.
console.log('task will
be invoked:', task.type, task.source);
viii.
return delegate.invokeTask(target,
task, applyThis, applyArgs);
}
ix.
onHasTask: This
hook triggers when the status of one kind of task inside a zone changes from
stable(no tasks in the zone) to unstable(a new task is scheduled in the zone)
or from unstable to stable.
x.
onHasTask: function(delegate,
curr, target, hasTaskState) {
xi.
console.log('task state
changed in the zone:', hasTaskState);
xii.
return delegate.hasTask(target,
hasTaskState);
}
xiii.
onInvoke: This
hook triggers when a synchronous function is going to execute in the zone.
xiv.
onInvoke: function(delegate,
curr, target, callback, applyThis, applyArgs) {
xv.
console.log('the
callback will be invoked:', callback);
xvi.
return delegate.invoke(target,
callback, applyThis, applyArgs);
}
249.
What are the methods of NgZone
used to control change detection?
NgZone service
provides a run() method that allows you to
execute a function inside the angular zone. This function is used to execute
third party APIs which are not handled by Zone and trigger change detection
automatically at the correct time.
export class AppComponent implements
OnInit {
constructor(private
ngZone: NgZone) {}
ngOnInit() {
// use
ngZone.run() to make the asynchronous operation in the angular zone
this.ngZone.run(() => {
someNewAsyncAPI(() => {
// update
the data of the component
});
});
}
}
Whereas runOutsideAngular() method
is used when you don't want to trigger change detection.
export class AppComponent implements
OnInit {
constructor(private
ngZone: NgZone) {}
ngOnInit() {
// Use this
method when you know no data will be updated
this.ngZone.runOutsideAngular(() => {
setTimeout(() => {
// update
component data and don't trigger change detection
});
});
}
}
250.
How do you change the settings
of zonejs?
You can change
the settings of zone by configuring them in a separate file and import it just
after zonejs import. For example, you can disable the requestAnimationFrame()
monkey patch to prevent change detection for no data update as one setting and
prevent DOM events(a mousemove or scroll event) to trigger change detection.
Let's say the new file named zone-flags.js,
// disable patching requestAnimationFrame
(window as any).__Zone_disable_requestAnimationFrame = true;
// disable patching specified eventNames
(window as any).__zone_symbol__UNPATCHED_EVENTS = ['scroll', 'mousemove'];
The above
configuration file can be imported in a polyfill.ts file as below,
/***************************************************************************************************
* Zone JS is required by
default for Angular.
*/
import `./zone-flags`;
import 'zone.js/dist/zone'; // Included with Angular CLI.
251.
How do you trigger an animation?
Angular
provides a trigger() function for animation in
order to collect the states and transitions with a specific animation name, so
that you can attach it to the triggering element in the HTML template. This
function watch for changes and trigger initiates the actions when a change
occurs. For example, let's create trigger named upDown, and attach
it to the button element.
content_copy
@Component({
selector: 'app-up-down',
animations: [
trigger('upDown', [
state('up', style({
height: '200px',
opacity: 1,
backgroundColor: 'yellow'
})),
state('down', style({
height: '100px',
opacity: 0.5,
backgroundColor: 'green'
})),
transition('up =>
down', [
animate('1s')
]),
transition('down =>
up', [
animate('0.5s')
]),
]),
],
templateUrl: 'up-down.component.html',
styleUrls: ['up-down.component.css']
})
export class UpDownComponent {
isUp = true;
toggle() {
this.isUp = !this.isUp;
}
252.
How do you configure injectors
with providers at different levels?
You can
configure injectors with providers at different levels of your application by
setting a metadata value. The configuration can happen in one of three places,
i.
In the @Injectable() decorator
for the service itself
ii.
In the @NgModule() decorator
for an NgModule
iii.
In the @Component() decorator
for a component
253.
Is it mandatory to use
injectable on every service class?
No. The @Injectable() decorator
is not strictly required if the class has other Angular decorators on it or
does not have any dependencies. But the important thing here is any class that
is going to be injected with Angular is decorated. i.e, If we add the
decorator, the metadata design:paramtypes is
added, and the dependency injection can do it's job. That is the exact reason
to add the @Injectable() decorator on a service if this service has some
dependencies itself. For example, Let's see the different variations of
AppService in a root component,
i.
The below AppService can be
injected in AppComponent without any problems. This is because there are no
dependency services inside AppService.
ii.
export class AppService {
iii.
constructor() {
iv.
console.log('A new app
service');
v.
}
}
vi.
The below AppService with dummy
decorator and httpService can be injected in AppComponent without any problems.
This is because meta information is generated with dummy decorator.
vii.
function SomeDummyDecorator() {
viii.
return
(constructor: Function) => console.log(constructor);
ix.
}
x.
xi.
@SomeDummyDecorator()
xii.
export class AppService {
xiii.
constructor(http: HttpService) {
xiv.
console.log(http);
xv.
}
}
and the
generated javascript code of above service has meta information about
HttpService, js var AppService = (function () { function
AppService(http) { console.log(http); } AppService = __decorate([
core_1.Injectable(), __metadata('design:paramtypes',
[http_service_1.HttpService]) ], AppService); return AppService; }());
exports.AppService = AppService; 3. The below AppService with
@injectable decorator and httpService can be injected in AppComponent without
any problems. This is because meta information is generated with Injectable
decorator. js @Injectable({ providedIn: 'root', }) export
class AppService { constructor(http: HttpService) { console.log(http); }
}
254.
What is an optional dependency?
The optional
dependency is a parameter decorator to be used on constructor parameters, which
marks the parameter as being an optional dependency. Due to this, the DI
framework provides null if the dependency is not found. For example, If you
don't register a logger provider anywhere, the injector sets the value of
logger(or logger service) to null in the below class.
import { Optional } from '@angular/core';
constructor(@Optional() private
logger?: Logger) {
if (this.logger) {
this.logger.log('This is an
optional dependency message');
} else {
console.log('The logger
is not registered');
}
}
255.
What are the types of injector
hierarchies?
There are two
types of injector hierarchies in Angular
i.
ModuleInjector hierarchy: It
configure on a module level using an @NgModule() or @Injectable() annotation.
ii.
ElementInjector hierarchy: It
created implicitly at each DOM element. Also it is empty by default unless you
configure it in the providers property on @Directive() or @Component().
256.
What are reactive forms?
Reactive forms
is a model-driven approach for creating forms in a reactive style(form inputs
changes over time). These are built around observable streams, where form
inputs and values are provided as streams of input values. Let's follow the
below steps to create reactive forms,
i.
Register the reactive forms
module which declares reactive-form directives in your app
ii.
import { ReactiveFormsModule } from '@angular/forms';
iii.
iv.
@NgModule({
v.
imports: [
vi.
// other imports ...
vii.
ReactiveFormsModule
viii.
],
ix.
})
export class AppModule { }
x.
Create a new FormControl
instance and save it in the component.
xi.
import { Component } from '@angular/core';
xii.
import { FormControl } from '@angular/forms';
xiii.
xiv.
@Component({
xv.
selector: 'user-profile',
xvi.
styleUrls: ['./user-profile.component.css']
xvii.
})
xviii.
export class UserProfileComponent {
xix.
userName = new FormControl('');
}
xx.
Register the FormControl in the
template.
xxi.
<label>
xxii.
User name:
xxiii.
<input type="text" [formControl]="userName">
</label>
Finally, the
component with reactive form control appears as below, ```js import { Component
} from '@angular/core'; import { FormControl } from '@angular/forms';
@Component({
selector: 'user-profile',
styleUrls:
['./user-profile.component.css']
template: `
<label>
User name:
<input
type="text" [formControl]="userName">
</label>
`
})
export class UserProfileComponent {
userName = new
FormControl('');
}
```
257.
What are dynamic forms?
Dynamic forms
is a pattern in which we build a form dynamically based on metadata that
describes a business object model. You can create them based on reactive form
API.
258.
What are template driven forms?
Template
driven forms are model-driven forms where you write the logic, validations,
controls etc, in the template part of the code using directives. They are
suitable for simple scenarios and uses two-way binding with [(ngModel)] syntax.
For example, you can create register form easily by following the below simple
steps,
i.
Import the FormsModule into the
Application module's imports array
ii.
import { BrowserModule } from '@angular/platform-browser';
iii.
import { NgModule } from '@angular/core';
iv.
import {FormsModule} from '@angular/forms'
v.
import { RegisterComponent } from './app.component';
vi.
@NgModule({
vii.
declarations: [
viii.
RegisterComponent,
ix.
],
x.
imports: [
xi.
BrowserModule,
xii.
FormsModule
xiii.
],
xiv.
providers: [],
xv.
bootstrap: [RegisterComponent]
xvi.
})
export class AppModule { }
xvii.
Bind the form from template to
the component using ngModel syntax
xviii.
<input type="text" class="form-control" id="name"
xix.
required
[(ngModel)]="model.name" name="name">
xx.
Attach NgForm directive to the
tag in order to create FormControl instances and register them
<form #registerForm="ngForm">
xxi.
Apply the validation message for
form controls
xxii.
<label for="name">Name</label>
xxiii.
<input type="text" class="form-control" id="name"
xxiv.
required
xxv.
[(ngModel)]="model.name" name="name"
xxvi.
#name="ngModel">
xxvii.
<div [hidden]="name.valid
|| name.pristine"
xxviii.
class="alert
alert-danger">
xxix.
Please enter your name
</div>
xxx.
Let's submit the form with
ngSubmit directive and add type="submit" button at the bottom of the
form to trigger form submit.
xxxi.
<form (ngSubmit)="onSubmit()" #heroForm="ngForm">
xxxii.
// Form goes here
<button type="submit" class="btn
btn-success" [disabled]="!registerForm.form.valid">Submit</button>
Finally, the
completed template-driven registration form will be appeared as follow.
```html
<div class="container">
<h1>Registration
Form</h1>
<form
(ngSubmit)="onSubmit()" #registerForm="ngForm">
<div
class="form-group">
<label
for="name">Name</label>
<input
type="text" class="form-control" id="name"
required
[(ngModel)]="model.name" name="name"
#name="ngModel">
<div [hidden]="name.valid
|| name.pristine"
class="alert alert-danger">
Please enter your
name
</div>
</div>
<button
type="submit" class="btn btn-success"
[disabled]="!registerForm.form.valid">Submit</button>
</form>
</div>
```
259.
What are the differences between
reactive forms and template driven forms?
Below are the
main differences between reactive forms and template driven forms
|
Feature |
Reactive |
Template-Driven |
|
Form
model setup |
Created(FormControl
instance) in component explicitly |
Created
by directives |
|
Data
updates |
Synchronous |
Asynchronous |
|
Form
custom validation |
Defined
as Functions |
Defined
as Directives |
|
Testing |
No
interaction with change detection cycle |
Need
knowledge of the change detection process |
|
Mutability |
Immutable(by
always returning new value for FormControl instance) |
Mutable(Property
always modified to new value) |
|
Scalability |
More
scalable using low-level APIs |
Less
scalable using due to abstraction on APIs |
260.
What are the different ways to
group form controls?
Reactive forms
provide two ways of grouping multiple related controls.
i.
FormGroup: It defines a
form with a fixed set of controls those can be managed together in an one
object. It has same properties and methods similar to a FormControl instance.
This FormGroup can be nested to create complex forms as below.
ii.
import { Component } from '@angular/core';
iii.
import { FormGroup, FormControl } from '@angular/forms';
iv.
v.
@Component({
vi.
selector: 'user-profile',
vii.
templateUrl: './user-profile.component.html',
viii.
styleUrls: ['./user-profile.component.css']
ix.
})
x.
export class UserProfileComponent {
xi.
userProfile = new FormGroup({
xii.
firstName: new FormControl(''),
xiii.
lastName: new FormControl(''),
xiv.
address: new FormGroup({
xv.
street: new FormControl(''),
xvi.
city: new FormControl(''),
xvii.
state: new FormControl(''),
xviii.
zip: new FormControl('')
xix.
})
xx.
});
xxi.
xxii.
onSubmit() {
xxiii.
// Store
this.userProfile.value in DB
xxiv.
}
}
<form [formGroup]="userProfile" (ngSubmit)="onSubmit()">
<label>
First Name:
<input type="text" formControlName="firstName">
</label>
<label>
Last Name:
<input type="text" formControlName="lastName">
</label>
<div formGroupName="address">
<h3>Address</h3>
<label>
Street:
<input type="text" formControlName="street">
</label>
<label>
City:
<input type="text" formControlName="city">
</label>
<label>
State:
<input type="text" formControlName="state">
</label>
<label>
Zip Code:
<input type="text" formControlName="zip">
</label>
</div>
<button type="submit" [disabled]="!userProfile.valid">Submit</button>
</form>
xxv.
FormArray: It
defines a dynamic form in an array format, where you can add and remove
controls at run time. This is useful for dynamic forms when you don’t know how
many controls will be present within the group.
xxvi.
import { Component } from '@angular/core';
xxvii.
import { FormArray, FormControl } from '@angular/forms';
xxviii.
xxix.
@Component({
xxx.
selector: 'order-form',
xxxi.
templateUrl: './order-form.component.html',
xxxii.
styleUrls: ['./order-form.component.css']
xxxiii.
})
xxxiv.
export class OrderFormComponent {
xxxv.
constructor () {
xxxvi.
this.orderForm = new FormGroup({
xxxvii.
firstName: new FormControl('John', Validators.minLength(3)),
xxxviii.
lastName: new FormControl('Rodson'),
xxxix.
items: new FormArray([
xl.
new FormControl(null)
xli.
])
xlii.
});
xliii.
}
xliv.
xlv.
onSubmitForm () {
xlvi.
// Save the items
this.orderForm.value in DB
xlvii.
}
xlviii.
xlix.
onAddItem () {
l.
this.orderForm.controls
li.
.items.push(new FormControl(null));
lii.
}
liii.
liv.
onRemoveItem (index) {
lv.
this.orderForm.controls['items'].removeAt(index);
lvi.
}
}
<form [formControlName]="orderForm" (ngSubmit)="onSubmit()">
<label>
First Name:
<input type="text" formControlName="firstName">
</label>
<label>
Last Name:
<input type="text" formControlName="lastName">
</label>
<div>
<p>Add
items</p>
<ul formArrayName="items">
<li *ngFor="let item of
orderForm.controls.items.controls; let i = index">
<input type="text" formControlName="{{i}}">
<button type="button" title="Remove Item" (click)="onRemoveItem(i)">Remove</button>
</li>
</ul>
<button type="button" (click)="onAddItem">
Add an item
</button>
</div>
261.
How do you update specific
properties of a form model?
You can
use patchValue() method to update specific
properties defined in the form model. For example,you can update the name and
street of certain profile on click of the update button as shown below.
updateProfile() {
this.userProfile.patchValue({
firstName: 'John',
address: {
street: '98
Crescent Street'
}
});
}
<button (click)="updateProfile()">Update
Profile</button>
You can also
use setValue method to update
properties.
Note: Remember
to update the properties against the exact model structure.
262.
What is the purpose of
FormBuilder?
FormBuilder is
used as syntactic sugar for easily creating instances of a FormControl,
FormGroup, or FormArray. This is helpful to reduce the amount of boilerplate
needed to build complex reactive forms. It is available as an injectable helper
class of the @angular/forms package.
For example,
the user profile component creation becomes easier as shown here.
export class UserProfileComponent {
profileForm = this.formBuilder.group({
firstName: [''],
lastName: [''],
address: this.formBuilder.group({
street: [''],
city: [''],
state: [''],
zip: ['']
}),
});
constructor(private
formBuilder: FormBuilder) { }
}
263.
How do you verify the model
changes in forms?
You can add a
getter property(let's say, diagnostic) inside component to return a JSON
representation of the model during the development. This is useful to verify
whether the values are really flowing from the input box to the model and vice
versa or not.
export class UserProfileComponent {
model = new User('John', 29, 'Writer');
// TODO:
Remove after the verification
get diagnostic() { return JSON.stringify(this.model); }
}
and add diagnostic binding
near the top of the form
{{diagnostic}}
<div class="form-group">
// FormControls goes
here
</div>
264.
What are the state CSS classes
provided by ngModel?
The ngModel
directive updates the form control with special Angular CSS classes to reflect
it's state. Let's find the list of classes in a tabular format,
|
Form control state |
If true |
If false |
|
Visited |
ng-touched |
ng-untouched |
|
Value
has changed |
ng-dirty |
ng-pristine |
|
Value
is valid |
ng-valid |
ng-invalid |
265.
How do you reset the form?
In a
model-driven form, you can reset the form just by calling the function reset() on our
form model. For example, you can reset the form model on submission as follows,
onSubmit() {
if (this.myform.valid) {
console.log("Form
is submitted");
// Perform
business logic here
this.myform.reset();
}
}
Now, your form
model resets the form back to its original pristine state.
266.
What are the types of validator
functions?
In reactive
forms, the validators can be either synchronous or asynchronous functions,
i.
Sync validators: These
are the synchronous functions which take a control instance and immediately
return either a set of validation errors or null. Also, these functions passed
as second argument while instantiating the form control. The main use cases are
simple checks like whether a field is empty, whether it exceeds a maximum
length etc.
ii.
Async validators: These
are the asynchronous functions which take a control instance and return a
Promise or Observable that later emits a set of validation errors or null. Also,
these functions passed as second argument while instantiating the form control.
The main use cases are complex validations like hitting a server to check the
availability of a username or email.
The
representation of these validators looks like below
this.myForm =
formBuilder.group({
firstName: ['value'],
lastName: ['value', *Some Sync validation
function*],
email: ['value', *Some validation
function*, *Some
asynchronous validation function*]
});
267.
Can you give an example of
built-in validators?
In reactive
forms, you can use built-in validator like required and minlength on your
input form controls. For example, the registration form can have these
validators on name input field
this.registrationForm = new FormGroup({
'name': new FormControl(this.hero.name, [
Validators.required,
Validators.minLength(4),
])
});
Whereas in
template-driven forms, both required and minlength validators
available as attributes.
268.
How do you optimize the
performance of async validators?
Since all
validators run after every form value change, it creates a major impact on
performance with async validators by hitting the external API on each
keystroke. This situation can be avoided by delaying the form validity by
changing the updateOn property from change (default) to submit or blur. The
usage would be different based on form types,
i.
Template-driven forms: Set the
property on ngModelOptions directive
<input [(ngModel)]="name" [ngModelOptions]="{updateOn:
'blur'}">
ii.
Reactive-forms: Set the
property on FormControl instance
name = new FormControl('', {updateOn: 'blur'});
269.
How to set ngFor and ngIf on the
same element?
Sometimes you
may need to both ngFor and ngIf on the same element but unfortunately you are
going to encounter below template error.
Template parse errors:
Can't have multiple template bindings on one element.
In this case,
You need to use either ng-container or ng-template. Let's say if you try to
loop over the items only when the items are available, the below code throws an
error in the browser
<ul *ngIf="items" *ngFor="let item of
items">
<li></li>
</ul>
and it can be
fixed by
<ng-container *ngIf="items">
<ul *ngFor="let item of
items">
<li></li>
</ul>
</ng-container>
270.
What is host property in css?
The :host pseudo-class
selector is used to target styles in the element that hosts the component.
Since the host element is in a parent component's template, you can't reach the
host element from inside the component by other means. For example, you can
create a border for parent element as below,
//Other styles for app.component.css
//...
:host {
display: block;
border: 1px solid
black;
padding: 20px;
}
271.
How do you get the current
route?
In Angular,
there is an url property of router package
to get the current route. You need to follow the below few steps,
i.
Import Router from
@angular/router
import { Router } from '@angular/router';
Inject router inside constructor
constructor(private router: Router ) {
}
Access url parameter
console.log(this.router.url); // /routename
272.
What is Component Test
Harnesses?
A component
harness is a testing API around an Angular directive or component to make tests
simpler by hiding implementation details from test suites. This can be shared
between unit tests, integration tests, and end-to-end tests. The idea for
component harnesses comes from the PageObject pattern commonly
used for integration testing.
273.
What is the benefit of Automatic
Inlining of Fonts?
During compile
time, Angular CLI will download and inline the fonts that your application is
using. This performance update speed up the first contentful paint(FCP) and
this feature is enabled by default in apps built with version 11.
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